Multi-function general purpose transceiver

专利摘要:
The present invention is generally directed to a system and associated method for communicating information to a predetermined location. The system includes a transmitter disposed at a first location and configured to transmit a signal containing an instruction code that uniquely identifies an instruction to be carried out. The system further includes a transceiver disposed remotely from the transmitter and configured to receive the transmitted signal. The transceiver circuit includes a line interface circuit configured to interface with a telephone line that is part of the public switched telephone network (PSTN) and initiate a phone call over the telephone line. Finally, the system includes a central station remotely located from said transceiver but being in communication with said transceiver via the PSTN The central station further include a decoder configured to decode the instruction code. In accordance with a broader aspect, the invention is directed to a general purpose transceiver having a receiver for receiving an information signal and a transmitter configured to transmit an outgoing signal over a phone line to a central station A portion of the information signal includes an instruction code, which may be decoded by the central station and acted upon accordingly Consistent with the general purpose nature of the transceiver, the phone number of the central station may be transmitted to the transceiver as part of the information signal.
公开号:US20010002210A1
申请号:US09/756,386
申请日:2001-01-08
公开日:2001-05-31
发明作者:Thomas Petite
申请人:Petite Thomas D.；
IPC主号:H04W40-02

专利说明:
[0001] This application is a continuation-in-part of U.S. patent applications Ser. Nos. 08/825,576, filed on Mar. 31, 1997, entitled Transmitter for Accessing Automated Financial Transaction Machines, 08/895,720, filed Jul. 17, 1997, entitled Transmitter for Accessing Pay-Type Telephones, and 08/910,980, filed Aug. 7, 1997, entitled Transmitter for Automatically Communicating Information to a Telephone, which all claimed the benefit of U.S. provisional patent application Ser. No. 60/040,316, filed Feb. 14, 1997, and entitled Card Replacement Transceiver for Use With Automatic Teller Machines This application further claims the benefit of U.S. provisional patent application Ser No. 60/059,643, filed Sep. 20, 1997, and entitled System For Requesting Service Of A Vending Machine. [0001] BACKGROUND OF THE INVENTION
[0002] The present invention generally relates to transceivers, and more particularly to a general purpose radio frequency (RF) transceiver having an open-ended architecture that readily adapts it for a wide variety of uses and applications. [0002]
[0003] There are a wide variety of circumstances in which it is desired or desirable to communicate information to a single location. For example, in the banking industry, when a user accesses an automated teller machine (ATM), it may be desirable to communicate the user identifying information (e.g., account and PIN number) to a central location to verify that the PIN number matches the account number. Likewise, if the ATM breaks down, malfunctions, runs out of money, takes in a predetermined amount of money, or for a variety of other reasons, it may be desirable to communicate such information to a centralize location that can respond accordingly (e.g., dispatch a person to repair or otherwise service machine). [0003]
[0004] In the vending machine industry, it may be desirable to communicate information relating to the product status (e.g., low or out of stock) of a given vending machine to a central location, so that service personnel may be dispatched to replenish the product. In similar fashion, it may be desirable to communicate machine operational status to a centralized location for purposes of dispatching repair or service personnel. Thus, for example, if the vending machine malfunctions, runs out of change, acquires too much currency, or for other reasons, it may be desired to communicate this information to a centralized location [0004]
[0005] One way this type of information has been communicated in the past has been to dispatch personnel to periodically check on such machinery If problems were noted, then the dispatched personnel communicated this information to a central dispatch or service location One shortcoming with this approach, however, is that it is relatively expensive to employ an individual to make these periodic status checks Also, a machine may be disabled or otherwise in need of service for a undesirably lengthy period of time between service checks, before the service condition is noted and reported. [0005]
[0006] Accordingly, it is desired to provide an apparatus that effectively addresses the these and other shortcomings of the prior art. [0006] SUMMARY OF THE INVENTION
[0007] Certain objects, advantages and novel features of the invention will be set forth in part in the description that follows and in part will become apparent to those skilled in the art upon examination of the following or may be learned with the practice of the invention. The objects and advantages of the invention may be realized and obtained by means of the instrumentalities and combinations particularly pointed out in the appended claims. [0007]
[0008] To achieve the advantages and novel features, the present invention is generally directed to a system for communicating information to a predetermined location. In accordance with one aspect of the invention, the system includes a transmitter disposed at a first location and configured to transmit a signal containing an instruction code to a transceiver The instruction code uniquely identifies an instruction to be carried out Preferably, the transmitter transmits a relatively low-power radio-frequency electromagnetic signal. The system further includes a transceiver disposed remotely from the transmitter (but within range of the transmitted signal) and is configured to receive the transmitted signal. The transceiver circuit includes a line interface circuit configured to interface with a telephone line that is part of the public-switched telephone network (PSTN) and initiate a phone call over the telephone line. In this regard, the transceiver further includes a controller configured to control both the reception of the transmitted signal and to control the communication of information over the telephone line. Finally, the system includes a central station remotely located from said transceiver but being in communication with said transceiver via the PSTN. The central station further includes a decoder configured to decode the instruction code. [0008]
[0009] As will be appreciated, the system summarized above provides an extremely robust and flexible platform for providing general purpose communications to a central location. In this regard, the term “general purpose” may also be referred to as an “open ended” platform that may be readily adapted for a wide variety of uses. The instruction code is a relatively small data value that may be decoded to define a wide variety of functions. For example, an instruction code a single byte (eight bits) in size may define up to two hundred fifty six different functions or instructions Similarly, an instruction code two bytes in size may define over sixty-five thousand (2[0009] ¹⁶) functions or instructions.
[0010] In operation, the transmitter transmits the instruction code, perhaps along with other information, to a transceiver located remotely, but generally nearby. The transceiver, which will preferably be integrated into a pay-type public telephone (but which can be integrated into virtually any telephone or other device having access to the PSTN), receives the transmitted information including the instruction code, and communicates this information to a predetermined location over the PSTN. In this regard, the transceiver is configured with a controller or other appropriate component to place a call to a predetermined phone number. Once the connection is established, the instruction code may be communicated (as by modem) to the predetermined location. The predetermined location (which may be a central dispatch location) then decodes the instruction code to identify the function or instruction that corresponds to the code, and further initiates an appropriate response. [0010]
[0011] To illustrate the foregoing summary with a more concrete example, consider a vending machine that is running low on a particular product. A sensor within the vending machine may make this determination and signal the transmitter accordingly. The transmitter then broadcasts a transmission that includes an instruction code that corresponds to the low product alert. The transceiver receives the broadcast transmission and communicates this information to a predetermined phone number. In this respect, the predetermined phone number may also be communicated from the transmitter to the transceiver along with the instruction code. Assuming that the predetermined number corresponds to a central dispatch center, the center answers the phone call placed by the transceiver and receives the instruction code. It then decodes the instruction code to determine that a particular product is low in the vending machine, and it may dispatch an appropriate service person to restock the machine. To this end, the center may be configured to generate an email message to route to an appropriate service person to handle the request. [0011]
[0012] In accordance with another aspect of the invention, a method is provided for performing an automated service request. In accordance with this aspect of the invention, the method includes the steps of sensing a service condition and notifying a transmitter of the service condition. Then the method transmits an information signal from the transmitter to a remotely-located transceiver, wherein the information signal includes a function code that specifies the service condition. Thereafter, the method places a call from the transceiver to a central station over a phone line comprising a part of the public switched telephone network (PSTN), and communicates at least the function code from the transceiver to the central station. Finally, the method decodes the function code at the central station to identify the service request. [0012]
[0013] In accordance with a broader aspect of the present invention a multi-function, general purpose transceiver is provided In accordance with this broad aspect of the invention, the transceiver includes a receiver circuit for receiving a signal transmitted from a remotely located transmitter. The transceiver also includes a transmitter that is configured to communicate information over a phone line, comprising a portion of the PSTN Finally, the transceiver includes a controller that is configured acquire information from the receiver circuit, initiate a phone call to a predetermined location, and transmit the acquired information over the PSTN to the called location [0013] DESCRIPTION OF THE DRAWINGS
[0014] The accompanying drawings incorporated in and forming a part of the specification, illustrate several aspects of the present invention, and together with the description serve to explain the principles of the invention. In the drawings: [0014]
[0015] FIGS. 1A and 1B are block diagrams of a system constructed in accordance with one embodiment of the invention; [0015]
[0016] FIGS. 2A and 2B are block diagrams of a system constructed in accordance with an alternative embodiment of the invention; [0016]
[0017] FIG. 3 is an exploded perspective view of a telephone housing a transceiver constructed in accordance with the invention; [0017]
[0018] FIG. 4 is a block diagram illustrating a transceiver constructed in accordance with one embodiment of the invention; [0018]
[0019] FIG. 5 is look-up table illustrating the association of instruction codes with there relevant function; [0019]
[0020] FIG. 6 is a flowchart illustrating the top-level functional operation of a transceiver constructed in accordance with one embodiment of the present invention; [0020]
[0021] FIG. 7 is a flowchart illustrating the top-level functional operation of a system constructed in accordance with one embodiment of the present invention; and [0021]
[0022] FIG. 8 is a flowchart illustrating a more detailed operation of system constructed in accordance with the present invention. [0022] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
[0023] Having summarized various aspects of the present invention, reference will now be made in detail to the description of the invention as illustrated in the drawings. While the invention will be described in connection with these drawings, there is no intent to limit it to the embodiment or embodiments disclosed therein. On the contrary, the intent is to cover all alternatives, modifications and equivalents included within the spirit and scope of the invention as defined by the appended claims. [0023]
[0024] While the present invention is broadly directed to a general purpose transceiver and a method for communicating information from remote sites to a central location, before specifically describing these aspects of the invention, reference will first be made to two different illustrative environments and uses of the present invention In this regard, FIGS. 1A and 1B illustrate an environment in which information may be communicated from financial transaction machines (e.g., ATMs) to a central location, and FIGS. 2A and 2B illustrate an environment in which information may be communicated from vending machines to a central location However, it will be appreciated by persons of skill in the art from a reading of this disclosure that the present invention may have a wide variety of other uses, and a transceiver constructed in accordance with the invention may be utilized in a wide variety of environments. [0024]
[0025] Turning now to the drawings, FIG. 1 shows a system level block diagram of an automatic financial transaction. More specifically, the figure shows an automatic financial transaction machine (AFTM) [0025] 10 being remotely accessed by a transmitter 20. The AFTM 10 may be any of a number of devices, including, most commonly, an automated teller machine for banking. However, the AFTM 10 may further encompass devices such as gas pumps of the type equipped to receive credit cards for charging an otherwise cash transaction. It will be appreciated that other similar devices fall within the scope of the term
[0026] In the embodiment illustrated in FIG. 1A, the AFTM [0026] 10 includes a display 12, such as a CRT, for providing a visual display to a user. A card receiving slot 14 is also shown. As is known, the card receiving slot 14 receives a plastic card such as a bank card, credit card, or some other magnetically encoded card for purposes of user identification. A key pad 16 for inputting information, such as a personal identification number (PIN), transaction amounts, and other information is also illustrated in the drawing
[0027] Finally, the last functional block illustrated in the AFTM [0027] 10 of FIG. 1A is receiving unit 18 The receiving unit 18 has been illustrated in dashed lines, since it will typically reside inside the AFTM 10 The receiving unit 18 is adapted to receive a signal transmitted from a remote transmitter 20, interpreting that signal in order to allow a user access to the AFTM 10. Preferably, the receiving block 18 comprises a radio frequency (RF) receiving for receiver electromagnetic waves transmitted from an RF transmitter contained with the remote transmitter unit 20. However, consistent with the concepts and teachings in the present invention, the receiving block 18 may be configured to receive other wavelength electromagnetic signals, including ultrasonic or infrared.
[0028] A remote transmitting unit [0028] 20 is provided for remote communications with the AFTM 10 While the transmitter 20 will be described in more detail below, it broadly operates to transmit an electromagnetic signal 30 to a receiver located at the AFTM 10, wherein said electromagnetic signal is encoded with user identifying information to allow a user to gain access to the AFTM 10. In this regard, an internal transmission circuit (not shown) is provided within the transmitter 20 to act upon command to transmit the encoded electromagnetic signal 30. A transmit button 22 is provided for the user. As illustrated, the transmitter 20 is quite small and may be conveniently attached, for example, to a key ring for ready and portable use. Indeed, in one embodiment, the single transmitter constructed in accordance with the present invention may serve multiple functions For example, small transmitters of this type are known for activating and deactivating automobile alarm systems. The transmitter of the present invention may be integrally designed with such an automobile remote to provide the dual functionality of remotely controlling an automobile alarm along with the functionality of remote access to an AFTM 10. In accordance with such an embodiment, a second transmit button 24 would be provided. In this regard, the first transmit button 22 would be operative to, for example, operate the AFTM 10, while the second transmit button 24 would be operative to remotely operate the automobile alarm. It will be appreciated that the frequency, and/or format of the transmit signal 30 transmitted will be different for the different applications. For example, the signal transmitted to AFTM 10 may include account identification information, while only a unique activation sequence need be transmitted to actuate an automobile alarm.
[0029] In yet a further embodiment, additional transmit buttons (not shown) may be provided as well. To illustrate, presently people typically carry multiple banking and/or credit cards in their billfolds or purses. In accordance with one embodiment, a transmitting unit [0029] 20 may be provided with multiple transmit buttons, wherein a transmit button 22, 24 is uniquely assigned to a different banking and/or credit card Therefore, if a user has a bank checking account, and credit accounts with other financial institutions for both VISA and MASTERCARD credit cards, then three distinct transmit buttons would be provided for accessing the three different accounts. It should be appreciated that many AFTM's 10 presently allow access to a wide number and variety of accounts, including MASTERCARD, VISA, AMERICAN EXPRESS, etc. Such a machine would be constructed in accordance with the invention to recognize the transmissions from each of the different transmit buttons depressed. In accordance with the description provided below, the various user/account information will be different for each account, and therefore, the signal transmitted will be different. Providing a separate transmit button for each of these functions/account simplifies the user interface. A simpler way to envision such a transmitter 20 is to recognize that each individual credit/banking card that a user may carry in a billfold or purse would be replaced by an additional transmit button on the transmitter 20.
[0030] In use, a user would simply depress a transmit button [0030] 22, which would result in the transmitter 20 transmitting an electromagnetic signal 30 to a remote AFTM 10 Preferably, the transmitter 20 is an extremely low power transmitter, so that a user will have to be in close proximity, (e.g., several feet) to the receiver 18 of an AFTM 10 in order to use the transmitter. This would help alleviate problems which may otherwise occur if a user approaching an AFTM 10 is circumvented by a second, more distantly located user who depresses his transmit button. This extremely low-power operation also helps to prevent the unlawful interception of the electromagnetic signals In addition, in an alternative embodiment, the transmitted signal may be encrypted for further protect against such unlawful interception
[0031] A receiving unit [0031] 18 disposed within the AFTM 10 receives and decodes the signal 30 The AFTM 10 then evaluates the received, decoded signal to ensure that it identifies a legitimate user/account If so, the user may then access the AFTM 10 In the case of an automatic teller machine, or other similar AFTM 10, a user may then be prompted to enter a personal identification number (PIN) into, for example, key pad 16, as an added measure of security. However, in many AFTM's, a user will not need to make any further input. For example, many gas pumps are presently automated to receive an inserted credit card and debit the corresponding account according to the amount of gasoline purchased. Presently, there is no need in these devices for a user to manually key in a personal identification number. In similar fashion, the system may be configured to operate automatically and exclusively by the depression of a transmit button on the transmitter 20.
[0032] Having now presented an overview of the basic operation of the system of FIG. 1A, reference is made to FIG. 1B which shows a more detailed block diagram of the components contained within the AFTM [0032] 10 and remote transmitting unit 20 As previously mentioned, the transmitting unit 20 includes a transmit button 22, which initiates the data transmission. The other primary functional blocks of the transmitter 20 include a memory 42, a data formatter 44, a controller 46, and an RF transmitter 48. It will be appreciated that the functional blocks shown in FIG. 1B are shown for purposes of illustration and facilitating a better understanding of the broad concepts of the system. The functional blocks of the illustrated embodiment should not, however, be viewed as specific limitations on the invention. For example, data formatter 44 and controller 46 (discussed below) may be embodied in a single functional unit. Indeed, it is contemplated that the entirety of the circuitry of the transmitter 20 will be contained within a single integrated circuit component
[0033] In keeping with the description of the transmitter [0033] 20, the controller 46 lies at the heart of the transmitter 20, and serves to control the overall functionality thereof. In this regard, the controller 46 is responsive to the depression or actuation of transmit button 22 to begin the data transaction and signal transfer. More particularly, when a user depresses the transmit button 22, the controller 46 initiates the data transmission sequence by accessing an internal memory 42, which, among other things, stores user and/or account identification information. This information is then passed to a data formatter functional block 44 which places the data in an appropriate and predefined format for transmission to the AFTM 10. It is contemplated that the above-described functionality occurs in electronic format. This electronic data is then sent from data formatter 44 to an RF transmitter 48 for conversion from electric to electromagnetic form. As is well known by those skilled in the art, a variety of transducers can perform this functionality adequately.
[0034] The AFTM [0034] 10 receives the transmitted electromagnetic signal 30 at an RF receiver 50 This receiver serves to convert the data from electromagnetic format into electrical format (i.e., a digital signal) and passes that data to a data formatter 52. Also illustrated as comprising principal functional components of the AFTM 10 are the magnetic card receiving slot 14, a transducer or magnetic pick-up 54, the display 12, the keyboard 16, a block denoted as controller 56, a cloud denoted as miscellaneous 58, and a communication network (i.e., the PSTN) 60
[0035] In a manner that is well known, a magnetically encoded card is inserted into slot [0035] 14, wherein the information encoded on the card's magnetic strip is read by transducer or magnetic pick-up 54. The electric signals from this pick-up 54 are then formatted into a suitable, preferably digital, form by data formatter 52. For purposes of simplifying the description, the data formatter 52 (shown as a single block) receives signals from both the transducer 54 and the RF receiver 50. It will, however, be appreciated that the data formatting function of block 52 may be provided by two separate and distinct formatting units. In such a retrofit system, the functionality of such data formatter 52 would indeed be performed by distinct physical units.
[0036] In keeping with the description of the AFTM [0036] 10, the information received and formatted by the data formatter 52 is then transmitted to a block denoted as Controller 56 This functional block serves to verify that the information received, either from the encoded card inserted into slot 14, or the signal received by the RF receiver 50 is valid To do this, the AFTM 10 will generally access a centralized database (not shown) via the PSTN 60 It will be appreciated that this account verification functionality is well known in the prior art, and therefore, need not be discussed herein. Finally, a block 58 denoted as “transmitter” is illustrated within the AFTM 10, which controls the communication of data across the PSTN 60
[0037] As will be appreciated by those skilled in the art, the controller [0037] 56 performs a variety of functional features which depend, in part, upon the specifics of the machine 10 For example, the block will manage user input and output to and from the display 12 and keypad 16, as well as the PSTN 60 management and access. It would further serve to access any database of information that is stored locally at the AFTM 10.
[0038] As illustrated, the ATFM [0038] 10 communicates across the PTSN 60 to a central station 62 The central station 62 may comprise a database of financial and/or account information, which database may be utilized to verify user information. It may also include facilities that are capable of dispatching service personnel, if the ATFM 10 sends a message indicating that the machine, or its surrounding environment is in need of service. In this regard, the surrounding environment may refer lighting. As is known, a certain amount of lighting is generally desired (if not required) in the immediate vicinity of an ATM A lighting failure may be an event that is sensed and transmitted by the transceiver to report a service condition for repair. For purposes of the present invention, the actual structure and/or of the central station 62 is unimportant, and thus will not be discussed in detail herein. Suffice it to say that the central station 62 may vary from implementation to implementation.
[0039] The controller [0039] 56, receiver 50, data formatter 52, and transmitter 58 may all be provided on an open-ended transceiver constructed in accordance with the present invention
[0040] Reference is now made to FIGS. 2A and 2B, which illustrate another environment of the present invention. Specifically, the environment illustrated in these figures is one which provides for the automated service of a vending machine [0040] 120. In this regard, a vending machine 120, such as a soda dispensing machine, includes an internal transmitter 148 that communicates information to a nearby transceiver (not shown in FIG. 2A, but illustrated in FIG. 4). In accordance with this illustrated embodiment, the transceiver is incorporated into a public, pay-type telephone 110. However, and as will be appreciated, the transceiver may be incorporated into a variety of devices, so long as it has access to a phone line, preferably one forming a part of the PSTN.
[0041] Internally, the transceiver includes receiver circuitry for receiving the transmitted signal [0041] 130 and a transmitter for communicating data via the PSTN 160 to a central station 162 In this regard, the central station 162 may be a central dispatch location, that is set up to dispatch service personnel to attend to the vending machine 120. As will be appreciated, the vending machine 120 may encompass a wide variety of devices, in addition to a soda dispensing machine For example, the vending machine 120 may include a snack dispensing apparatus, a candy dispensing apparatus, a cigarette dispensing apparatus, a newspaper dispensing apparatus, an ice dispensing apparatus, among a laundry list of other devices.
[0042] A variety of sensors (not shown) may be provided in the vending machine [0042] 120 for detecting a variety of events. For example, detecting whether the machine is low on a given product, or out of a product, determining whether the machine is out of change; determining if the machine has taken in a predetermined amount of money, which should be emptied; detecting if the machine is out of order; etc.. These, and other events sensed within the vending machine 120 may be communicated to the transmitter 148, which then formats the data in a way that it may be readily understood by the transceiver. The transmitter 148 then transmits the data (via RF link 130) to the transceiver disposed within the telephone 110. This information, in turn, is communicated from the transceiver via PSTN 160 to a central station 162. Based upon the information received, the central station 162 will institute an appropriate response. For example, if the information received is a notification that one or more of the products in the vending machine 120 is either low or out, then a first person may be dispatched to restock the machine If, on the other hand, the information received is a notification that the machine is out of order, then a second person (service person) may be dispatched to service the machine.
[0043] Having broadly described the vending machine service environment, reference is now made to FIG. 2B, which illustrates the circuitry within the vending machine [0043] 120, as well as the circuitry within the telephone 110, for carrying out the inventive aspects. In this regard, the various sensors disposed within the vending machine are broadly denoted by the block labeled “Sensor Circuitry” 142. The outputs of the various sensors may be directed to a controller 146, which may comprise dedicated circuitry. or may alternatively comprise general purpose programmable hardware, such as a microprocessor or microcontroller. The controller 146, in essence, handles the processing of most of the functional operations carried out at the vending machine 120.
[0044] In this regard, and as will be discussed in more detail below, the transceiver of the present invention is characterized by an open-ended architecture that is configured to receive an encoded instruction. This encoded instruction may be decoded to identify specific and unique functions and/or instructions. For example, one code may uniquely describe the event of the vending machine [0044] 120 running out of a certain product. Although this code may be meaningless to the transceiver, when decoded by the central station 162, an appropriate action may be taken. Thus, a vending machine company may utilize a given code to define a certain event relevant to the vending machine, while a banking enterprise may utilize the same code to define a completely different event. Nevertheless, the same general purpose transceiver may be used to implement both embodiments.
[0045] In keeping with a description of the vending machine [0045] 120, the controller 146 is preferably configured to receive sensor outputs and compose the appropriate instruction code for transmission to the transceiver. A block called “Data Formatter” 144 may also be provided within the vending machine 120. As the name implies, this block formats the data for transmission to the transceiver It will be appreciated that, in addition to the instruction code, other information may also be supplied by the transmitter 148. As illustrated by the block 157 (exploded from the Data Formatter block 144), information such as a transmitter identification code, and a destination phone number may also be included in the information transmitted to the transceiver. In this regard, the transmitter identification code uniquely identifies the transmitter, which code may be decoded at the central station to identify the specific vending machine that is originating the message. That is, the instruction code may inform the central station 162 as to the particular service need of the vending machine 120, and the transmitter identification code may inform the central station 162 of the particular vending machine 120, and thus its location, in need of service.
[0046] Finally, the data formatter may also include the phone number of the central station [0046] 162; namely, phone number that the transceiver is to dial over the PSTN 160. In this way, a generic (open-ended) transceiver may be utilized and installed in mass within public, pay-type telephones, by the service provider. Thus, various companies may then utilize specially configured transmitters 148 to communicate with the general purpose transceiver to communicate a wide variety of information to central locations, defined by the transmitters.
[0047] FIGS. 1A, 1B, [0047] 2A, and 2B illustrate two different environments in which the present invention may operate, it will be appreciated that a variety of other environments may use or implement the invention as well
[0048] Reference is now made briefly to FIG. 3, which is an exploded perspective view of a telephone [0048] 110 incorporating a transceiver 150 constructed in accordance with the present invention In this regard, the transceiver 150 may be provided in a single module having an associated battery pack 151. Alternatively, the transceiver 150 could be designed to operate from the power supplied to the telephone. As illustrated, the module 150 may be configured to snap into a space provided in the telephone, and maintained by a pair or resilient fingers 178.
[0049] An external wire [0049] 153 may be provided to act as an antenna for the RF receiver. Alternatively, a smaller internal antenna may be provided. As will be appreciated by one of ordinary skill in the art, the output from the transceiver is via cable 180, which may terminate at an RJ11 connector, having Ring, Tip, and Common conductors.
[0050] Reference is now made to FIG. 4 which illustrates (generically) a system constructed in accordance with the present invention. The drawing more specifically illustrates an open-ended transceiver [0050] 170 constructed in accordance with the present invention. In this regard, the transceiver 170 includes a receiver circuit 250 that is configured to receive an electromagnetic signal (e.g., RF, optical, etc.) As described above, this signal includes an instruction code, and possibly other items such as a phone number, a transmitter identification code, etc A data formatter 252 is provided in connection with a controller 256 to further format a signal that is to be output from the transceiver 270 to the central station 362. In this regard, additional information may be added to the signal that is transmitted to the central station 362.
[0051] For example, a transceiver identification code may be added to the signal Although the central station may decode the transmitter identification code (if provided) to identify, for example, a geographic location of a transmitter, in environments where the transmitter is a mobile (i.e., handheld), a transmitter identification code may be of no use in identifying a geographic location. In such an environment, the addition of a transceiver code will facilitate the identification of the transmitter location (recognizing that the transmitter will be located in the proximity of the transceiver [0051] 270).
[0052] The controller [0052] 256 preferably performs the overall control and synchronization of functional operations within the transceiver 270. In this regard, the controller 256 may be a general purpose microprocessor or microcontroller. If so, memory 257 will be provided to store programmable code for controlling the operation of the controller 256. Telephone circuitry 258 may also be provided for interfacing to the telephone circuitry 263 within the telephone 110. The telephone 110 typically has circuitry configured to interface with the local loop of the PSTN 260. The interface 258 within the transceiver 270 is designed to interface with this typical/standard telephone circuitry 263. The specific implementation of the circuitry of block 258 will be appreciated by persons skilled in the art and need not be described in detail herein.
[0053] A look-up table [0053] 266 is also illustrated in FIG. 4. It is illustrated in dashed line to represent that it may be optionally provided within the transceiver 270 Consistent with the broader concepts of the invention, in certain embodiments, it may be desired to provide a more application specific transceiver 270. In such embodiments, a look-up table 266 may be provided within the transceiver for decoding information such as the instruction code, the transmitter identification code, or any other information that may be transmitted from the transmitter. The specific use of such data will necessarily be application specific and controlled by the controller 256, and need not be described herein.
[0054] At the central station [0054] 262, a computer 290 may be provided to receive and process data received from the transceiver 270 via the PSTN 260. In this regard a database 292, including a look-up table 294, may be provided. Since the present invention is directed to the transceiver 270, a variety of platforms may actually be implemented at the central station 262. It will be appreciated, however, that with a computer 290 implementation, an extremely flexible and robust operation may be achieved. For example, the response of the central station 262 to various incoming messages may be programmed to vary depending upon the contents of the message.
[0055] By way of illustration, suppose in incoming message identifies a particular vending machine that is out of a given product. The computer [0055] 290, upon recognizing this condition, may alert the appropriate person that is to restock the machine. To this end, the computer may so notify the person by sending the person an email message Similarly, suppose the computer recognizes the incoming message as identifying that a particular vending machine is out of order, then the computer 290 may alert a different person that the machine is in need of technical service. In order to identify the contents of the various incoming messages, the central station 262 may employ a look-up table, like that illustrated in FIG. 5
[0056] Referring to FIG. 5, a look-up table is illustrated. Although the look-up table [0056] 294 may take on a wide variety of forms, the table illustrated in FIG. 5 includes two columns of data. The first column is a listing of the various instruction codes that are transmitted by the transmitter to the transceiver, and forwarded by the transceiver to the central station. The second column contains the specific functions or instructions that correspond to the transmitted/received instruction code. Thus, by looking up the instruction code within the table 294, the computer 290 at the central station can readily identify the function or instruction that is to be executed. For example, one code may indicated that a particular vending machine “n” is low on a specific product “X”. Another code may indicate that a person “Y” is in distress. Yet another code may indicate that an industrial trash compactor “m” is in need of service
[0057] Thus, in one embodiment, the instruction codes themselves may be encoded to uniquely identify particular machines or persons. More particularly, in the illustrated embodiment, instruction code 00000001 identifies that vending machine “n” is low on product “X”. In yet another embodiment, this same code may indicate that a vending machine (generally) is low on a product (generally) Additional codes may be generated at the transmitter and decoded at the central station to provide this more specific information For example, a transmitter identification code may be decoded by the central station to identify the specific vending machine that is low on product Likewise, an additional code, such as a product code, may be generated by the transmitter to identify the specific product that is low. Thus, in such an alternative embodiment, as many as three different look-up tables may be utilized at the central station [0057] 292.
[0058] Having described the transceiver of the present invention, and illustrated its use in differing embodiments, reference is now made to FIG. 6, which is a flowchart that depicts the top-level functional operation of a transceiver constructed in accordance with one embodiment of the invention. In this regard, the transceiver awaits the receipt of a signal transmitted from a transmitter (step [0058] 302). Upon receipt of a transmitted signal, the transceiver (through the controller and data formatter) looks to identify and/or isolate the instruction code (step 304). The transceiver also looks, if appropriate, to identify a phone number of a central station (step 306). The transceiver then dials this central station, establishing a connection over the PSTN (step 308).
[0059] In this regard, the transceiver may be configured to seize the phone line. Thus, anyone making a call or any call currently in progress would be disconnected Alternatively, the transceiver (through the controller) may be configured to test the phone line for its present availability. If a call is in progress, the controller may store the message received from the transmitter and await the availability of the phone line Once the phone line becomes available, then the transceiver may assume the line and place its call In yet a further embodiment, the transceiver may be configured to implement simultaneous voice/data technology to place the phone call to the central station without interrupting any ongoing call. In an even more complex embodiment, a different service may be provided in connection with the telephone [0059] 110 through which to place the call. For example, the telephone 110 may also be equipped with an ISDN service or a DSL service, through which the transmitted is communicated. As is known, communication through such a service may be made without any interruption to a call ongoing in the POTS frequency band.
[0060] Finally, the transceiver transmits the message, including the instruction code, and, if relevant, the transmitter identification code, the destination phone number, the transceiver identification code, etc. (step [0060] 310).
[0061] Referring now to FIG. 7, a flowchart is shown that illustrates the top-level functional operation of a system, in accordance with one aspect of the invention. In this regard, the system remains in an idle state, until the transmitter becomes activated (step [0061] 320) This activation may result from a user depressing a manual button on a transmitter or by an event triggering an input to a transmitter. Upon activation, the transmitter transmits a signal, including at least an instruction code (step 322). Thereafter the transceiver operates in accordance with the flowchart of FIG. 6. The central station then decodes information received via the PSTN (specifically decoding the instruction code)
[0062] Based upon the decoded instruction code (and perhaps other codes in some embodiments), the central station initiates an appropriate action in response For example, in response to a distress call, the central station may dispatch emergency personnel (step [0062] 330) In response to a service request, the central station may dispatch service personnel 332. In response to other types of messages or requests, the central station may dispatch other personnel or take other appropriate action (step 334).
[0063] Having described the top-level functional operation of the invention, reference is made to FIG. 8, which is a flowchart that depicts the operation of the system from more of a hardware level, as opposed to a functional level. The flowchart of FIG. 8 will not be described herein in detail, as a person of ordinary skill in the art will appreciate the system operation simply from a review of the flowchart and the nomenclature provided therein. For example, block [0063] 342 indicates the activation of the modem within the transceiver to dial-out onto the PSTN. The decision block 345 evaluates whether an appropriate connection has been established. If so the system proceeds to step 347 to transfer data. Alternatively, the system returns to steps 343 and 344 to attempt a redial.
[0064] It should be appreciated that the foregoing description has been presented for purposes of illustration and description. Various alternative embodiments may be implemented completely consistent with the concepts and teachings of the invention. Indeed, the encoded message transmitter [0064] 148 is, preferably, different that that described above. In this regard, the message preferably transmitted is, in its most basic form, a fourteen byte message, defined by Table 1 below. TABLE 1 Byte Description 1-4 “To” Address - Four Hex Bites 5-8 “From” Address - Four Hex Bytes  9 Message Number 10-11 Packet Number 12 Byte Count (14-255) 13 Command (instruction code) 14 Data 15 Check Sum - Hex (modulo 8)
[0065] Thus, in the preferred embodiment, the message transmitted defines the destination of the central station by the “To” address, which is a logical IP address. Thus, the transceiver may be configured to establish a connection with a predetermined remote number, which may this allow message routing in accordance with the IP protocol, using the Internet In this regard, bytes [0065] 1-4 of the message define the destination to which the message is routed.
[0066] When the central station receives the message, it may evaluate the “From” address, which will be unique to a given transmitter. This address, in turn defines the physical (i.e., geographic) location of the transmitter. That is, in many embodiments, knowing that a given transmitter was installed in a given device allows the central station [0066] 262 to known the location of the transmitter 148.
[0067] Byte [0067] 13 defines the command or instruction code that is relayed to the central station In accordance with the general purpose nature of the system, a second byte (actually variable in size), permits the passage of data if necessary. For example, byte 13 may be encoded to indicate that a given product in a vending machine is low on stock. Further detail, such as a description of the product, may be passed in byte 14. In an alternative embodiment, this byte may be used to communicate other data. For example, in an embodiment where the transmitter is a hand-held transmitter, a panic button may be provided. The instruction code may be encoded to convey “help” or distress command (See, for example, U.S. Pat. No. 5,714,931, assigned to the assignee of the present invention, and is hereby incorporated by reference). The data field of byte 14 may be encoded to include personal data about the person carrying the transmitter In a banking environment, the instruction code may be one that requests access to an account, while the data field may convey the track one data, typically carried on the magnetic strip of a magnetic card.
[0068] In yet another embodiment, a transmitter may be provided on an automobile. Sensors may be disposed in numerous locations throughout the car. In this regard an automobile manufacturer may include a variety of diagnostic sensors covering a variety of the mechanical and electrical systems on the automobile If a system malfunctions, causing the car to break down, the transmitter may encode the relevant data into the data field of the transmitted message In this regard, the instruction code may be that the car is broken down and the data may be the data relevant to diagnose the reason for the breakdown Using this diagnostic information, a service person may be dispatched to the site of the vehicle with the necessary component(s) to service the vehicle, rather than simply dispatching a tow-truck to tow the vehicle to a service location (depending of course on the nature of the service required). [0068]
[0069] In embodiments such as a personal transmitter, an automotive transmitter, and other embodiments where the nature of the transmitter is necessarily mobile, the transmitter may also include global positioning system (GPS) circuitry. Thus, when the message is transmitted, the data field may also include the relevant GPS location, so that the geographic location of the transmitter may be readily identified and located. [0069]
[0070] In this regard, byte [0070] 14 is actually variable in length. It may vary from 0 to 241 bytes in length. To this end, byte 12 (byte count) will specify the size of the message, which in turn defines the number of bytes in the data field of the message. In the unlikely event that even more information is desired to be transmitted, the protocol defined in Table 1 allows for ready expandability In this regard bytes 9-11 define a message number and a packet number. Up to 255 messages can be sent in a burst transmission, and up to 65,536 packets may be strung together. In this way, the central station, upon receiving multiple burst transmissions may use the message number and packet number to reconstruct a relatively lengthy message transmission that is broken up over an number of successive transmissions.
[0071] Although it is preferred to implement the present invention through an open-ended transmission protocol, as defined above, it will be appreciated that the concepts and teachings of the present invention are not so limited. In fact, for purposes of the present invention, the message transmitted by the transmitter may be as simple as an instruction code that defines some condition, that a central station may decode and act upon. In such an embodiment, the transceiver may be specially configured to establish a phone connection with a predetermined central station. [0071]
[0072] In yet another embodiment, the transmitter may encode a message that transmits both an instruction code and a phone number that the transceiver is to establish a connection with. Such an embodiment, allows a generic transceiver to be utilized, such that multiple enterprises may utilize this common, generic transceiver for various applications Consistent with these broad concepts, a variety of other configurations may be employed as well. [0072]
[0073] Indeed, the foregoing description has been presented for purposes of illustration and description. It is not intended to be exhaustive or to limit the invention to the precise forms disclosed Obvious modifications or variations are possible in light of the above teachings. For example, the transceiver has been illustrated herein having a transmitter configured to communicate across the PSTN. However, it will be appreciated that the transmitter may, consistent with the concepts and teachings of the present invention, be similarly configured to communicate via cellular technology as well. For example, in embodiments such as the automobile embodiment described above, it may be desirable to use a cellular transmitter, instead of a low-power RF transmitter This may be desired because the automobile may break down a relatively significant distance from the nearest pay-type telephone (e.g., location of the nearest transceiver). Thus, a transmitter in the automobile may establish a cellular communication link to a predetermined telephone number and convey the information in a similar message structure. [0073]
[0074] In this regard, the embodiment or embodiments discussed were chosen and described to provide the best illustration of the principles of the invention and its practical application to thereby enable one of ordinary skill in the art to utilize the invention in various embodiments and with various modifications as are suited to the particular use contemplated. All such modifications and variations are within the scope of the invention as determined by the appended claims when interpreted in accordance with the breadth to which they are fairly and legally entitled [0074]

权利要求:
Claims (32)
[1" id="US-20010002210-A1-CLM-00001] 1. A system for communicating information to a predetermined location comprising:
a transmitter configured to transmit a signal containing an instruction code, the instruction code uniquely identifying an instruction to be carried out;
a transceiver configured to receive the transmitted signal, said transceiver circuit including a line interface circuit configured to interface with a telephone line that is part of the public-switched telephone network (PSTN) and initiate a phone call over the telephone line, said transceiver further including a controller configured to control the reception of the transmitted signal and to control the communication of information over the telephone line, and
a central station located remote from said transceiver but being in communication with said transceiver via the PSTN, said central station having a decoder configured to decode the instruction code.
[2" id="US-20010002210-A1-CLM-00002] 2. The system as defined in
claim 1 , wherein the system is a service request system.
[3" id="US-20010002210-A1-CLM-00003] 3. The system as defined in
claim 1 , wherein the transmitted signal further phone number for the transceiver to dial in order to establish connection with the central station.
[4" id="US-20010002210-A1-CLM-00004] 4. The system as defined in
claim 1 , wherein the transmitted signal further includes a logical IP address for the transceiver in order to route the message the central station.
[5" id="US-20010002210-A1-CLM-00005] 5. The system as defined in
claim 1 , wherein the transmitter is a RF transmitter configured to transmit a low-power RF signal.
[6" id="US-20010002210-A1-CLM-00006] 6. The system as defined in
claim 1 , wherein the transmitted signal further includes a transmitter identifier code.
[7" id="US-20010002210-A1-CLM-00007] 7. The system as defined in
claim 1 , wherein the transceiver controller is configured to communicate the transmitted signal to the central station.
[8" id="US-20010002210-A1-CLM-00008] 8. The system as defined in
claim 7 , wherein the transceiver controller is configured to communicate a transceiver identification code to the central station.
[9" id="US-20010002210-A1-CLM-00009] 9. The system as defined in
claim 1 , wherein the decoder includes a look-up table.
[10" id="US-20010002210-A1-CLM-00010] 10. The system as defined in
claim 8 , wherein the central station includes means for valuating the transceiver identification code.
[11" id="US-20010002210-A1-CLM-00011] 11. The system as defined in
claim 10 , wherein the means for evaluating the transceiver code is configured to determine a geographical location of the transceiver, based on the transceiver identification code.
[12" id="US-20010002210-A1-CLM-00012] 12. The system as defined in
claim 1 , further including means associated with the transmitter for sensing a service condition, and the transmitter being configured to transmit the transmitted signal in response thereto.
[13" id="US-20010002210-A1-CLM-00013] 13. The system as defined in
claim 1 , wherein the central station further includes means for notifying service personnel of a service condition, in response to a communication from the transceiver.
[14" id="US-20010002210-A1-CLM-00014] 14. The system as defined in
claim 1 , wherein said transceiver is disposed within a public, pay-type telephone.
[15" id="US-20010002210-A1-CLM-00015] 15. A method for performing an automated service request comprising the steps of:
sensing a service condition;
notifying a transmitter of the service condition;
transmitting an information signal from the transmitter to a remotely-located transceiver, the information signal including a function code that specifies the service condition;
placing a call from the transceiver to a central station over a phone line comprising a part of the public switched telephone network (PSTN);
communicating at least the function code from the transceiver to the central station; and
decoding the function code at the central station to identify the service request.
[16" id="US-20010002210-A1-CLM-00016] 16. The method as defined in
claim 15 , further including the step of communicating a transceiver identification code from the transceiver to the central station.
[17" id="US-20010002210-A1-CLM-00017] 17. The method as defined in
claim 16 , wherein the decoding step more specifically includes decoding both the function code and the transceiver identification code to identify the service request.
[18" id="US-20010002210-A1-CLM-00018] 18. The method as defined in
claim 16 , further including the step evaluating the transceiver identification code at the central station to determine a geographic location of the transceiver.
[19" id="US-20010002210-A1-CLM-00019] 19. The method as defined in
claim 15 , wherein the information signal further includes a transmitter identification code.
[20" id="US-20010002210-A1-CLM-00020] 20. The method as defined in
claim 15 , wherein the information signal further includes a phone number of the central station.
[21" id="US-20010002210-A1-CLM-00021] 21. The method as defined in
claim 19 , wherein the decoding step more specifically includes decoding both the function code and the transmitter identification code to identify the service request.
[22" id="US-20010002210-A1-CLM-00022] 22. The method as defined in
claim 19 , further including the step evaluating the transmitter identification code at the central station to determine a geographic location of the transmitter.
[23" id="US-20010002210-A1-CLM-00023] 23. The method as defined in
claim 15 , further including the step of placing a service call in response to the decoding step.
[24" id="US-20010002210-A1-CLM-00024] 24. The method as defined in
claim 15 , wherein the sensing step senses a failed condition of a system within an automobile, and the transmitting step includes transmitting information from a transmitter disposed within the automobile.
[25" id="US-20010002210-A1-CLM-00025] 25. A transceiver comprising:
a receiver configured to receive an electromagnetic signal, the electromagnetic signal including an encoded instruction code;
a transmitter configured to transmit a formatted electric signal over a phone line comprising part of the public switched telephone network (PSTN);
a controller circuit including:
a first portion configured to obtain the instruction code from the received signal;
a second portion configured to establish a connection over the phone line to a predetermined location; and
a third portion configured to deliver the obtained instruction code to the transmitter for transmission over the phone line.
[26" id="US-20010002210-A1-CLM-00026] 26. The transceiver as defined in
claim 25 , wherein the circuit is a programmable circuit, and the first portion, the second portion, and the third portion are specially programmed code segments.
[27" id="US-20010002210-A1-CLM-00027] 27. The transceiver as defined in
claim 25 , further including a look-up table for decoding the instruction code to identify an associated function.
[28" id="US-20010002210-A1-CLM-00028] 28. The transceiver as defined in
claim 25 , further including means for decoding the instruction code to identify an associate function.
[29" id="US-20010002210-A1-CLM-00029] 29. The transceiver as defined in
claim 27 , wherein the associated function is a service request.
[30" id="US-20010002210-A1-CLM-00030] 30. The transceiver as defined in
claim 25 , wherein the electromagnetic signal is a radio-frequency electromagnetic signal.
[31" id="US-20010002210-A1-CLM-00031] 31. A method for relaying an electronic message from a transmitter to a central location comprising the step of:
transmitting an information signal from the transmitter to a remotely-located transceiver, the information signal including an instruction code that uniquely specifies a message,
placing a call from the transceiver to a central station identified by a predetermined phone number over a phone line comprising a part of the public switched telephone network (PSTN), and
communicating the instruction code from the transceiver to the central station.
[32" id="US-20010002210-A1-CLM-00032] 32. A transceiver comprising:
means for receiving an electromagnetic signal, the electromagnetic signal including an encoded instruction code;
means for transmitting a formatted electric signal over a phone line comprising part of the public switched telephone network (PSTN); and
means for obtaining the instruction code from the received signal and delivering the obtained instruction code to the means for transmitting for communication over the phone line to a predetermined destination.

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同族专利:

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公开号 | 公开日

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US20090068947A1|2009-03-12|

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US7397907B2|2008-07-08|

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US8908842B2|2014-12-09|

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US20130182831A1|2013-07-18|

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US6233327B1|2001-05-15|

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US8335304B2|2012-12-18|

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US20150092648A1|2015-04-02|

引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

US3705385A|1969-12-10|1972-12-05|Northern Illinois Gas Co|Remote meter reading system|

---

US3665475A|1970-04-20|1972-05-23|Transcience Inc|Radio signal initiated remote switching system|

---

US3742142A|1970-12-28|1973-06-26|Hunter Electronics Inc|Remote meter reader system|

---

US3848231A|1970-12-31|1974-11-12|Baldwin Electronics Inc|Alarm system utilizing pulse position modulation and dual conductor sensor|

---

US4025315A|1971-05-19|1977-05-24|San Diego Gas & Electric Co.|Method of odorizing liquid natural gas|

---

US3723876A|1971-06-21|1973-03-27|G Seaborn|Emergency distress signaling system|

---

US3892948A|1972-02-28|1975-07-01|Smiths Industries Ltd|Access- or trnansaction-control|

---

US3906460A|1973-01-11|1975-09-16|Halpern John Wolfgang|Proximity data transfer system with tamper proof portable data token|

---

US3914692A|1973-08-29|1975-10-21|Jr George C Seaborn|Emergency communication system|

---

US3925763A|1973-09-13|1975-12-09|Romesh Tekchand Wadhwani|Security system|

---

US4083003A|1973-11-05|1978-04-04|Products Of Information Technology, Inc.|Vehicle location system|

---

US3922492A|1974-03-18|1975-11-25|James Ray Lumsden|Remote meter reading transponder|

---

US4120452A|1975-08-14|1978-10-17|Matsushita Electric Industrial Co., Ltd.|Automatic vending system|

---

US4135181A|1976-01-30|1979-01-16|General Electric Company|Automatic remote meter reading and control system|

---

US4213119A|1976-04-29|1980-07-15|Energy Optics, Inc.|Remote meter reading system providing demand readings and load control from conventional KWH meters|

---

US4124839A|1976-12-23|1978-11-07|Cohen Murray F|Electro-optical method and system especially suited for remote meter reading|

---

US4204195A|1977-05-23|1980-05-20|General Electric Company|Meter terminal unit for use in automatic remote meter reading and control system|

---

US4277837A|1977-12-30|1981-07-07|International Business Machines Corporation|Personal portable terminal for financial transactions|

---

US4278975A|1978-01-27|1981-07-14|Tokyo Shibaura Denki Kabushiki Kaisha|Navigation-monitoring apparatus|

---

US4396915A|1980-03-31|1983-08-02|General Electric Company|Automatic meter reading and control system|

---

US4396910A|1980-05-02|1983-08-02|American District Telegraph Company|Coded security switch|

---

US4417450A|1980-10-17|1983-11-29|The Coca-Cola Company|Energy management system for vending machines|

---

US4354181A|1980-11-03|1982-10-12|Gerber Products Company|Vapor lamp indicating device|

---

US4446454A|1981-01-21|1984-05-01|Pyle Ronald E|Home security system|

---

US4468656A|1981-06-24|1984-08-28|Clifford Thomas J|Emergency signalling unit and alarm system for rescuing endangered workers|

---

US4495496A|1981-12-15|1985-01-22|Johnson Engineering Corp.|Personnel monitoring and locating system|

---

US4436957A|1981-12-22|1984-03-13|International Telephone And Telegraph Corporation|Telephone security system for cordless telephony|

---

US4488152A|1982-02-01|1984-12-11|Schlumberger Canada Limited|Register position sensing and controlling apparatus|

---

US4454414A|1982-06-16|1984-06-12|Vericard Corporation|Funds transfer system using optically coupled, portable modules|

---

US4906828A|1983-02-28|1990-03-06|Paperless Accounting, Inc.|Electronic money purse and fund transfer system|

---

US4551719A|1983-03-07|1985-11-05|Cypher Systems|Oil field lease management and security system and method therefor|

---

US4621263A|1983-08-12|1986-11-04|Mitsubishi Denki Kabushiki Kaisha|Vibration telemetering system|

---

US4631357A|1983-09-14|1986-12-23|Grunig Administration|Method of and device for monitoring a plurality of automatic selling machines|

---

US4897644A|1983-09-19|1990-01-30|Nissan Motor Company, Limited|Radio-wave transmission system of keyless entry system for automotive vehicle devices|

---

US4670739A|1984-12-14|1987-06-02|Kelly Jr Lawrence R|Communication system especially useful as an incident location reporting security system|

---

US4630035A|1985-01-04|1986-12-16|Motorola, Inc.|Alarm system having alarm transmitter indentification codes and acoustic ranging|

---

US5111199A|1985-08-12|1992-05-05|Nissan Motor Company, Limited|Pocket-portable radio code signal transmitter for automotive keyless entry system|

---

US4611198A|1985-09-19|1986-09-09|Levinson Samuel H|Security and communication system|

---

US4742296A|1986-02-10|1988-05-03|Lgz Landis & Gyr Zug Ag|Arrangement for measuring electrical power|

---

US4908769A|1986-06-16|1990-03-13|Schlumberger Electronics Limited|Commodity metering systems|

---

US4875231A|1986-10-30|1989-10-17|Nec Corporation|Radio telephone system|

---

US4973957A|1987-01-22|1990-11-27|Man Design Co., Ltd.|Data collecting system|

---

US4884123A|1987-02-19|1989-11-28|Advanced Micro Devices, Inc.|Contact plug and interconnect employing a barrier lining and a backfilled conductor material|

---

US4851654A|1987-05-30|1989-07-25|Kabushiki Kaisha Toshiba|IC card|

---

US5113183A|1987-06-16|1992-05-12|Casio Computer Co., Ltd.|Remote code transmission system between a nameplate apparatus and a data processing apparatus|

---

US5113184A|1987-09-22|1992-05-12|Hitachi Maxell, Ltd.|Method and system of communication for a non-contact ic card|

---

US4918690A|1987-11-10|1990-04-17|Echelon Systems Corp.|Network and intelligent cell for providing sensing, bidirectional communications and control|

---

US4800543A|1987-12-03|1989-01-24|Ramtron Corporation|Timepiece communication system|

---

US4999607A|1987-12-07|1991-03-12|Biotronics Enterprises, Inc.|Monitoring system with improved alerting and locating|

---

US4788721A|1987-12-09|1988-11-29|Bell Communications Research, Inc.|Routing of network traffic|

---

US4918995A|1988-01-04|1990-04-24|Gas Research Institute|Electronic gas meter|

---

US4940976A|1988-02-05|1990-07-10|Utilicom Inc.|Automated remote water meter readout system|

---

US4972504A|1988-02-11|1990-11-20|A. C. Nielsen Company|Marketing research system and method for obtaining retail data on a real time basis|

---

US4849815A|1988-03-02|1989-07-18|Jerry R. Iggulden|Portable electronic office and components suitable therefor|

---

US4829561A|1988-03-25|1989-05-09|Tek Electronics Manufacturing Corporation|Apparatus for optically coupling a terminal unit to the public telephone network through a pay telephone instrument and the like|

---

US4856046A|1988-04-08|1989-08-08|Jerry R. Iggulden|Remote public telephone link|

---

US5055851A|1988-05-16|1991-10-08|Trackmobile, Inc.|Vehicle location system|

---

US5136285A|1988-05-20|1992-08-04|Man Design Co., Ltd.|Portable data transmitting/receiving apparatus|

---

US5128855A|1988-06-08|1992-07-07|Lgz Landis & Gyr Zug Ag|Building automation system operating installation control and regulation arrangement|

---

US4857912A|1988-07-27|1989-08-15|The United States Of America As Represented By The Secretary Of The Navy|Intelligent security assessment system|

---

US4952928A|1988-08-29|1990-08-28|B. I. Incorporated|Adaptable electronic monitoring and identification system|

---

US4968978A|1988-09-02|1990-11-06|Stolar, Inc.|Long range multiple point wireless control and monitoring system|

---

US4989230A|1988-09-23|1991-01-29|Motorola, Inc.|Cellular cordless telephone|

---

US4962496A|1988-10-20|1990-10-09|Abb Power T & D Company Inc.|Transmission of data via power lines|

---

US4991008A|1988-12-01|1991-02-05|Intec Video Systems, Inc.|Automatic transaction surveillance system|

---

US4993059A|1989-02-08|1991-02-12|Cableguard, Inc.|Alarm system utilizing wireless communication path|

---

US5086391A|1989-02-24|1992-02-04|Chambers Bryan R|Remote controller for activating speech messages and for contacting emergency services|

---

US4967366A|1989-03-06|1990-10-30|Gilbarco Inc.|Integrated gasoline dispenser and POS authorization system with unattached pin pad|

---

US5007052A|1989-04-11|1991-04-09|Metricom, Inc.|Method for routing packets by squelched flooding|

---

US4968970A|1989-04-26|1990-11-06|Schlumberger Industries, Inc.|Method of and system for power line carrier communications|

---

US5032833A|1989-04-27|1991-07-16|Schlumberger Industries, Inc.|Adaptive network routing for power line communications|

---

US4973970A|1989-07-14|1990-11-27|General Atomics|Integrated automated system for waste site characterization|

---

US4939726A|1989-07-18|1990-07-03|Metricom, Inc.|Method for routing packets in a packet communication network|

---

US5115433A|1989-07-18|1992-05-19|Metricom, Inc.|Method and system for routing packets in a packet communication network|

---

US5057814A|1989-07-24|1991-10-15|Harley-Davidson, Inc.|Electrical malfunction detection system|

---

US5454024A|1989-08-31|1995-09-26|Lebowitz; Mayer M.|Cellular digital packet data network transmission system incorporating cellular link integrity monitoring|

---

US5038372A|1989-09-05|1991-08-06|Abb Power T & D Company, Inc.|Systems for transmitting data via telephone lines|

---

US4949077A|1989-10-02|1990-08-14|Mbuthia David G|Portable unit with smoke alarm, clock radio, compass, retractable table, and lamp|

---

US4977612A|1989-10-10|1990-12-11|Motorola, Inc.|Channel selection in a multi-frequency radio data communication system|

---

US4998095A|1989-10-19|1991-03-05|Specific Cruise Systems, Inc.|Emergency transmitter system|

---

US5124624A|1989-12-14|1992-06-23|Landis & Gyr Betriebs Ag|Arrangement for electrical measurement|

---

US4980907A|1989-12-15|1990-12-25|Telefonaktiebolaget L M Ericsson|Telecommunication combination comprising a telepoint and a portable radio terminal|

---

US5130519A|1990-01-16|1992-07-14|George Bush|Portable pin card|

---

US5130987A|1990-03-23|1992-07-14|Metricom, Inc.|Method for synchronizing a wide area network without global synchronizing|

---

US5079768A|1990-03-23|1992-01-07|Metricom, Inc.|Method for frequency sharing in frequency hopping communications network|

---

US5091713A|1990-05-10|1992-02-25|Universal Automated Systems, Inc.|Inventory, cash, security, and maintenance control apparatus and method for a plurality of remote vending machines|

---

US5155481A|1990-05-25|1992-10-13|Schlumberger Industries, Inc.|Two and three wire utility data communications system|

---

US5061997A|1990-06-21|1991-10-29|Rensselaer Polytechnic Institute|Control of visible conditions in a spatial environment|

---

US5131038A|1990-11-07|1992-07-14|Motorola, Inc.|Portable authentification system|

---

US5134650A|1991-01-22|1992-07-28|Schlumberger Industries, Inc.|Dial inbound meter interface unit for automatic meter reading using no subscriber line access controller|

---

US5115224A|1991-07-05|1992-05-19|Detection Systems, Inc.|Personal security system network|

---

US5159317A|1991-07-12|1992-10-27|Lifeline Systems, Inc.|System and method for remote telephonic station actuation|

---

US5282204A|1992-04-13|1994-01-25|Racotek, Inc.|Apparatus and method for overlaying data on trunked radio|

---

US5568535A|1992-06-01|1996-10-22|Trackmobile, Inc.|Alarm system for enclosed area|

---

US5592491A|1992-10-26|1997-01-07|Eon Corporation|Wireless modem|

---

US5790938A|1993-11-01|1998-08-04|Nokia Telecommunications Oy|Method for controlling a subscriber station in a mobile radio system|

---

US5757783A|1995-06-15|1998-05-26|Lucent Technologies Inc.|Method and apparatus for routing ATM cells in an AD-ATM LAN|

---

US5732078A|1996-01-16|1998-03-24|Bell Communications Research, Inc.|On-demand guaranteed bandwidth service for internet access points using supplemental user-allocatable bandwidth network|

---

US6430268B1|1997-09-20|2002-08-06|Statsignal Systems, Inc.|Systems for requesting service of a vending machine|US20010042121A1|2000-05-12|2001-11-15|Isochron Data Corporation|Method and system for the optimal formating, reduction and compression of DEX/UCS data|

---

US20010047410A1|2000-05-26|2001-11-29|Isochron Data Corporation|System and apparatus for the remote monitoring and control of a computing component|

---

US20010054083A1|1998-03-19|2001-12-20|Isochron Data Corporation|System and method for monitoring and control of beverage dispensing equipment|

---

US20020016829A1|1998-03-19|2002-02-07|Isochron Data Corporation|Remote data acquisition, transmission and analysis system including handheld wireless equipment|

---

US20020194387A1|1998-03-19|2002-12-19|Isochron Data Corporation|Remote data acquisition and transmission system and method|

---

US20030097474A1|2000-05-12|2003-05-22|Isochron Data Corporation|Method and system for the efficient communication of data with and between remote computing devices|

---

US20030101257A1|2001-11-27|2003-05-29|Isochron Data Corporation|Method and system for predicting the services needs of remote point of sale devices|

---

US20030101262A1|2001-11-27|2003-05-29|Isochron Data Corporation|Method and system for scheduling the maintenance of remotely monitored devices|

---

US20030204391A1|2002-04-30|2003-10-30|Isochron Data Corporation|Method and system for interpreting information communicated in disparate dialects|

---

US6747981B2|1997-02-12|2004-06-08|Elster Electricity, Llc|Remote access to electronic meters using a TCP/IP protocol suite|

---

US20040133653A1|1998-03-19|2004-07-08|Cac Vending Systems, L.L.C.|System, method and apparatus for vending machine wireless audit and cashless transaction transport|

---

US20050192678A1|2001-07-05|2005-09-01|May James A.|Real-time alert mechanism for monitoring and controlling field assets via wireless and internet technologies|

---

US20060056456A1|2004-09-10|2006-03-16|Ovidiu Ratiu|System and method for message consolidation in a mesh network|

---

US20060056423A1|2004-09-10|2006-03-16|Ovidiu Ratiu|System and method for communicating messages in a mesh network|

---

US20060056331A1|2004-09-10|2006-03-16|Ovidiu Ratiu|System and method for communicating broadcast messages in a mesh network|

---

US20060056363A1|2004-09-10|2006-03-16|Ovidiu Ratiu|System and method for a wireless mesh network|

---

US20060055529A1|2004-09-10|2006-03-16|Ovidiu Ratiu|System and method for communicating alarm conditions in a mesh network|

---

US20060183422A1|2001-06-29|2006-08-17|Defosse Erin M|Method and System for Interfacing a Machine Controller and a Wireless Network|

---

US20070050465A1|1998-03-19|2007-03-01|Canter James M|Packet capture agent for use in field assets employing shared bus architecture|

---

US20070053519A1|2005-08-30|2007-03-08|Godwin Bryan W|Wireless adapter for data exchange and method|

---

US20070072548A1|2001-06-29|2007-03-29|Godwin Bryan W|Apparatus and Method to Provide Multiple Wireless Communication Paths to and from Remotely Located Equipment|

---

US20070090920A1|2005-10-22|2007-04-26|Canter James M|Apparatus and Method for Controlling Access to Remotely Located Equipment|

---

US20070156253A1|2006-01-03|2007-07-05|Industrial Telemetry, Inc.|Apparatus and method for wireless process control|

---

US20070195490A1|2006-02-13|2007-08-23|Howell Sean V|Apparatus And Method For Attaching An Electronic Module To A Lock Assembly|

---

US20070208521A1|2001-08-09|2007-09-06|Hunt Technologies, Llc|System for controlling electrically-powered devices in an electrical network|

---

US20080083770A1|2006-09-13|2008-04-10|Godwin Bryan W|Rich content management and display for use in remote field assets|

---

US20090013028A1|2007-07-02|2009-01-08|Canter James M|Apparatus And Method For Monitoring And Control Of Remotely Located Equipment|

---

US20090113038A1|2007-10-25|2009-04-30|Godwin Bryan W|Systems and Methods for Monitoring Performance of Field Assets|

---

US7650425B2|1999-03-18|2010-01-19|Sipco, Llc|System and method for controlling communication between a host computer and communication devices associated with remote devices in an automated monitoring system|

---

US7697492B2|1998-06-22|2010-04-13|Sipco, Llc|Systems and methods for monitoring and controlling remote devices|

---

US7702594B2|2004-09-24|2010-04-20|Elster Electricity, Llc|System and method for automated configuration of meters|

---

US7719432B1|2005-02-04|2010-05-18|The Toro Company|Long range, battery powered, wireless environmental sensor interface devices|

---

US7742430B2|2004-09-24|2010-06-22|Elster Electricity, Llc|System for automated management of spontaneous node migration in a distributed fixed wireless network|

---

US7756086B2|2004-03-03|2010-07-13|Sipco, Llc|Method for communicating in dual-modes|

---

US20110035059A1|2008-08-12|2011-02-10|Climateminder, Inc.|Method and system for irrigation and climate control|

---

US8013732B2|1998-06-22|2011-09-06|Sipco, Llc|Systems and methods for monitoring and controlling remote devices|

---

US20110215060A1|2010-03-04|2011-09-08|Southern Imperial, Inc.|Alarm Sounding Retail Display System|

---

US20110218889A1|2010-03-05|2011-09-08|Southern Imperial, Inc.|Retail Display System With Integrated Security and Inventory Management|

---

US8031650B2|2004-03-03|2011-10-04|Sipco, Llc|System and method for monitoring remote devices with a dual-mode wireless communication protocol|

---

US8064412B2|1998-06-22|2011-11-22|Sipco, Llc|Systems and methods for monitoring conditions|

---

US8073384B2|2006-12-14|2011-12-06|Elster Electricity, Llc|Optimization of redundancy and throughput in an automated meter data collection system using a wireless network|

---

US8171136B2|2001-10-30|2012-05-01|Sipco, Llc|System and method for transmitting pollution information over an integrated wireless network|

---

US8203463B2|2009-02-13|2012-06-19|Elster Electricity Llc|Wakeup and interrogation of meter-reading devices using licensed narrowband and unlicensed wideband radio communication|

---

US8233471B2|1996-12-06|2012-07-31|Ipco, Llc|Wireless network system and method for providing same|

---

US8320302B2|2007-04-20|2012-11-27|Elster Electricity, Llc|Over the air microcontroller flash memory updates|

---

US8410931B2|1998-06-22|2013-04-02|Sipco, Llc|Mobile inventory unit monitoring systems and methods|

---

US8484068B2|2005-12-14|2013-07-09|Crane Merchandising Systems, Inc.|Method and system for evaluating consumer demand for multiple products and services at remotely located equipment|

---

US8489063B2|2001-10-24|2013-07-16|Sipco, Llc|Systems and methods for providing emergency messages to a mobile device|

---

US8525692B2|2008-06-13|2013-09-03|Elster Solutions, Llc|Techniques for limiting demand from an electricity meter with an installed relay|

---

US20130325172A1|2000-06-08|2013-12-05|Beverage Works, Inc.|Appliance having a user interface panel and a beverage dispenser|

---

US8631093B2|1998-03-19|2014-01-14|Crane Merchandising Systems, Inc.|Remote data acquisition, transmission and analysis system including handheld wireless equipment|

---

US8666357B2|2001-10-24|2014-03-04|Sipco, Llc|System and method for transmitting an emergency message over an integrated wireless network|

---

US8787246B2|2009-02-03|2014-07-22|Ipco, Llc|Systems and methods for facilitating wireless network communication, satellite-based wireless network systems, and aircraft-based wireless network systems, and related methods|

---

US9090446B2|2000-06-08|2015-07-28|Beverage Works, Inc.|Appliance with dispenser|

---

US9129494B2|2012-12-13|2015-09-08|Southern Imperial, Inc.|Alarming pusher system|

---

WO2015134705A3|2014-03-05|2015-11-26|William Marsh Rice University|Systems and methods for fracture mapping via frequency-changing integrated chips|

---

US9320367B2|2014-02-26|2016-04-26|Southern Imperial, Inc.|Snap-in pusher|

---

US9439126B2|2005-01-25|2016-09-06|Sipco, Llc|Wireless network protocol system and methods|

---

US9612132B2|2007-12-26|2017-04-04|Elster Solutions, Llc|Optimized data collection in a wireless fixed network metering system|

---

US9703275B2|2011-06-23|2017-07-11|Rain Bird Corporation|Methods and systems for irrigation and climate control|

---

US9829869B2|2011-06-23|2017-11-28|Rain Bird Corporation|Methods and systems for irrigation and climate control|

---

US10085393B2|2005-02-04|2018-10-02|The Toro Company|Long range, battery powered, wireless environmental sensor interface devices|

---

US10716269B2|2008-08-12|2020-07-21|Rain Bird Corporation|Methods and systems for irrigation control|

---

US10980120B2|2017-06-15|2021-04-13|Rain Bird Corporation|Compact printed circuit board|US3769965A|1971-02-23|1973-11-06|Esb Inc|Monitor apparatus for implanted pulse generator|

---

US3768014A|1972-01-28|1973-10-23|Gen Electric|Cardiac pacemaker rate/interval computer system|

---

US3885552A|1972-11-16|1975-05-27|Pacemaker Diagnostic Clinic Of|Cardiac function monitoring system and method for use in association with cardiac pacer apparatus|

---

SE391250B|1974-11-26|1977-02-07|Saab Scania Ab|SECURITY SYSTEM, INCLUDING A CENTRAL UNIT, SOMŸVIA A COMMUNICATION CHANNEL IS CONNECTED WITH SEVERAL LOCAL TERMINAL UNITS|

---

US4058672A|1976-11-10|1977-11-15|International Telephone And Telegraph Corporation|Packet-switched data communications system|

---

US4322842A|1979-10-23|1982-03-30|Altran Electronics|Broadcast system for distribution automation and remote metering|

---

DE3022725A1|1980-06-18|1981-12-24|Licentia Patent-Verwaltungs-Gmbh, 6000 Frankfurt|SERVICE INTEGRATED MESSAGE TRANSMISSION AND MEDIATION SYSTEM|

---

US4446458A|1981-09-14|1984-05-01|Donald Cook|Monitoring and control system|

---

US4707852A|1981-10-09|1987-11-17|Systems And Support, Incorporated|Utility usage data and event data acquisition system|

---

JPS60261288A|1984-06-08|1985-12-24|Meisei Electric Co Ltd|Channel extension method of time division switch|

---

US4692761A|1985-06-21|1987-09-08|Robinton Products, Inc.|Adaptive communication network and method|

---

US4731810A|1986-02-25|1988-03-15|Watkins Randy W|Neighborhood home security system|

---

JPH0442703B2|1986-04-28|1992-07-14|Hitachi Ltd||

---

FR2624749A1|1987-12-16|1989-06-23|Dana Dominique|Control device for cardiac stimulators|

---

JPH01255100A|1988-04-04|1989-10-11|Fuji Electric Co Ltd|Remote meter reading device for gas meter|

---

US4825457A|1988-04-25|1989-04-25|Lebowitz Mayer M|Cellular network data transmission system|

---

US5726984A|1989-01-31|1998-03-10|Norand Corporation|Hierarchical data collection network supporting packetized voice communications among wireless terminals and telephones|

---

GB8906213D0|1989-03-17|1989-05-04|Advanced Technology Ind Ltd|Locating system|

---

US4928299A|1989-05-26|1990-05-22|Mars Incorporated|Coin operated telephone operation monitoring switch mounting arrangement|

---

FR2648932B1|1989-06-23|1992-04-03|Parienti Raoul|TRANSMISSION, INFORMATION AND DATA PROCESSING INPUT SYSTEM|

---

US5673252A|1990-02-15|1997-09-30|Itron, Inc.|Communications protocol for remote data generating stations|

---

US5553094A|1990-02-15|1996-09-03|Iris Systems, Inc.|Radio communication network for remote data generating stations|

---

US5321618A|1990-05-29|1994-06-14|Lawrence Gessman|Apparatus and method for remotely monitoring implanted cardioverter defibrillators|

---

AT175068T|1990-08-31|1999-01-15|Gen Hospital Corp|SYSTEM FOR MANAGING SEVERAL DEVICES, FOR EXAMPLE OF PORTABLE PATIENT MONITORING DEVICES IN A NETWORK|

---

US5251205A|1990-09-04|1993-10-05|Digital Equipment Corporation|Multiple protocol routing|

---

GB2247761B|1990-09-05|1994-10-26|Leslie Keith Davies|Security systems|

---

US5917629A|1990-10-29|1999-06-29|International Business Machines Corporation|Transceiver for extending a CSMA/CD network for wireless communication|

---

US5159592A|1990-10-29|1992-10-27|International Business Machines Corporation|Network address management for a wired network supporting wireless communication to a plurality of mobile users|

---

US5177342A|1990-11-09|1993-01-05|Visa International Service Association|Transaction approval system|

---

US5162776A|1991-07-09|1992-11-10|Lifeline Systems, Inc.|Emergency service apparatus and method|

---

US5673304A|1991-09-23|1997-09-30|Ac Corporation|Programmable emergency communication system including automatic dialer|

---

US5390206A|1991-10-01|1995-02-14|American Standard Inc.|Wireless communication system for air distribution system|

---

GB2262683A|1991-12-20|1993-06-23|British Aerospace Space And Co|Dialled digit handler|

---

US5502726A|1992-01-31|1996-03-26|Nellcor Incorporated|Serial layered medical network|

---

US5319698A|1992-02-11|1994-06-07|Boat Buddy Sentry, Ltd.|Security system|

---

US5761083A|1992-03-25|1998-06-02|Brown, Jr.; Robert J.|Energy management and home automation system|

---

US5515419A|1992-06-01|1996-05-07|Trackmobile|Tracking system and method for tracking a movable object carrying a cellular phone unit, and integrated personal protection system incorporating the tracking system|

---

US5442633A|1992-07-08|1995-08-15|International Business Machines Corporation|Shortcut network layer routing for mobile hosts|

---

US5854793A|1992-10-26|1998-12-29|Eon Corporation|GPS synchronization of CTS transmitters for an interactive network|

---

US5424708A|1992-12-14|1995-06-13|Honeywell Inc.|System and method for transferring hub alarm service monitoring|

---

EP0604777A1|1992-12-28|1994-07-06|Motorola, Inc.|Data transmission device system and method|

---

US6108614A|1993-01-22|2000-08-22|Diablo Research Corporation|System and method for serial communication between a central unit and a plurality of remote units|

---

SE9300281D0|1993-01-29|1993-01-29|Siemens Elema Ab|IMPLANTABLE MEDICAL DEVICE AND EXTRACORPORAL PROGRAMMING AND MONITORING DEVICE|

---

JPH06261043A|1993-03-05|1994-09-16|Hitachi Ltd|Radio channel lan system and its control method|

---

US5343493A|1993-03-16|1994-08-30|Hughes Aircraft Company|Personal assistance system and method for use with a cellular communication system|

---

US5445347A|1993-05-13|1995-08-29|Hughes Aircraft Company|Automated wireless preventive maintenance monitoring system for magnetic levitation trains and other vehicles|

---

US5673305A|1993-05-14|1997-09-30|Worldwide Notification Systems, Inc.|Apparatus and method for tracking and reporting the location of a motor vehicle|

---

US5438329A|1993-06-04|1995-08-01|M & Fc Holding Company, Inc.|Duplex bi-directional multi-mode remote instrument reading and telemetry system|

---

US6542076B1|1993-06-08|2003-04-01|Raymond Anthony Joao|Control, monitoring and/or security apparatus and method|

---

US5448230A|1993-06-25|1995-09-05|Metscan, Incorporated|Remote data acquisition and communication system|

---

US5440545A|1993-08-02|1995-08-08|Motorola, Inc.|Packet delivery system|

---

US5555100A|1993-10-07|1996-09-10|Audiofax, Inc.|Facsimile store and forward system with local interface translating DTMF signals into store and forward system commands|

---

EP0740873B1|1993-11-04|2005-12-21|Norand Corporation|A communication network providing wireless and hard-wired dynamic routing|

---

US5548632A|1993-11-30|1996-08-20|Lawrence Steelman|Safe alert emergency alerting system for remotely located sites|

---

US5654690A|1993-12-13|1997-08-05|Brother Kogyo Kabushiki Kaisha|Fire alarm system|

---

US5530963A|1993-12-16|1996-06-25|International Business Machines Corporation|Method and system for maintaining routing between mobile workstations and selected network workstation using routing table within each router device in the network|

---

US5578808A|1993-12-22|1996-11-26|Datamark Services, Inc.|Data card that can be used for transactions involving separate card issuers|

---

US5867688A|1994-02-14|1999-02-02|Reliable Transaction Processing, Inc.|Data acquisition and retrieval system with wireless handheld user interface|

---

US5521363A|1994-02-16|1996-05-28|Tannenbaum; David H.|System and method for tracking memory card transactions|

---

NO941202L|1994-03-30|1995-10-02|Oeystein Konsmo|Method of monitoring and generating messages as well as equipment using the method|

---

US6094134A|1994-05-09|2000-07-25|Audiogard International|Device for the verification of an alarm|

---

US5926103A|1994-05-16|1999-07-20|Petite; T. David|Personalized security system|

---

US5714931A|1994-05-16|1998-02-03|Petite; Thomas D.|Personalized security system|

---

JP3192318B2|1994-05-20|2001-07-23|松下電工株式会社|Wireless information transmission system|

---

US5633872A|1994-06-08|1997-05-27|Eon Corporation|Interactive radio|

---

US5590038A|1994-06-20|1996-12-31|Pitroda; Satyan G.|Universal electronic transaction card including receipt storage and system and methods of conducting electronic transactions|

---

US5702059A|1994-07-26|1997-12-30|Meta Holding Corp.|Extended working range dataform reader including fuzzy logic image control circuitry|

---

US5629687A|1994-08-29|1997-05-13|Emergency Technologies, Inc.|Universal interface for remotely-monitored security systems|

---

US6049273A|1994-09-09|2000-04-11|Tattletale Portable Alarm, Inc.|Cordless remote alarm transmission apparatus|

---

US6026095A|1994-09-27|2000-02-15|3Com Corporation|Method and apparatus for controlling latency and jitter in shared CSMA/CD environment|

---

FR2728424B1|1994-12-19|1997-02-28|||

---

GB2297663A|1995-02-03|1996-08-07|Gen Electric Co Plc|Remote meter reading|

---

FI99071C|1995-02-15|1997-09-25|Nokia Mobile Phones Ltd|Procedure for use of applications in a mobile telephone as well as a mobile telephone|

---

US5701591A|1995-04-07|1997-12-23|Telecommunications Equipment Corporation|Multi-function interactive communications system with circularly/elliptically polarized signal transmission and reception|

---

US5673259A|1995-05-17|1997-09-30|Qualcomm Incorporated|Random access communications channel for data services|

---

WO1996039788A1|1995-06-06|1996-12-12|Globalstar L.P.|Satellite repeater diversity resource management system|

---

US5623495A|1995-06-15|1997-04-22|Lucent Technologies Inc.|Portable base station architecture for an AD-HOC ATM lan|

---

US5640002A|1995-08-15|1997-06-17|Ruppert; Jonathan Paul|Portable RF ID tag and barcode reader|

---

US5590126A|1995-09-27|1996-12-31|Lucent Technologies Inc.|Method for call establishment and rerouting in mobile computing networks|

---

DE69620533T2|1995-10-04|2002-10-02|Canon Kk|Image processing method|

---

US6122759A|1995-10-10|2000-09-19|Lucent Technologies Inc.|Method and apparatus for restoration of an ATM network|

---

US5737318A|1995-12-27|1998-04-07|Philips Electronics North America Corporation|Method for initializing a wireless, packet-hopping network|

---

US5745849A|1996-02-09|1998-04-28|Digital Monitoring Products, Inc.|Combination cordless telephone and premise-monitoring alarm system|

---

GB9604092D0|1996-02-27|1996-05-01|Linburg Ltd|Data carrying network|

---

US6078251A|1996-03-27|2000-06-20|Intermec Ip Corporation|Integrated multi-meter and wireless communication link|

---

US5712619A|1996-04-18|1998-01-27|Simkin; Alan C.|Global positioning system personal alarm|

---

US6104783A|1996-05-01|2000-08-15|Instant Alert Security, Llc|Method and apparatus for securing a site utilizing a security apparatus in cooperation with telephone systems|

---

US5719564A|1996-05-10|1998-02-17|Sears; Lawrence M.|Utility meter reading system|

---

US5748104A|1996-07-11|1998-05-05|Qualcomm Incorporated|Wireless remote telemetry system|

---

US5892758A|1996-07-11|1999-04-06|Qualcomm Incorporated|Concentrated subscriber wireless remote telemetry system|

---

US5994892A|1996-07-31|1999-11-30|Sacramento Municipal Utility District|Integrated circuit design automatic utility meter: apparatus & method|

---

US6067017A|1996-08-12|2000-05-23|Harris Corporation|Emergency location system and method|

---

IT1288972B1|1996-08-12|1998-09-25|Pro6Tec Srl|REMOTE RECOGNITION AND READING SYSTEM OF METERS|

---

US5854994A|1996-08-23|1998-12-29|Csi Technology, Inc.|Vibration monitor and transmission system|

---

US5907491A|1996-08-23|1999-05-25|Csi Technology, Inc.|Wireless machine monitoring and communication system|

---

US6301514B1|1996-08-23|2001-10-09|Csi Technology, Inc.|Method and apparatus for configuring and synchronizing a wireless machine monitoring and communication system|

---

US6246677B1|1996-09-06|2001-06-12|Innovatec Communications, Llc|Automatic meter reading data communication system|

---

US5862201A|1996-09-12|1999-01-19|Simplex Time Recorder Company|Redundant alarm monitoring system|

---

JPH10143732A|1996-11-12|1998-05-29|Kuresutetsuku Internatl Corp:Kk|Automatic vending machine and distribution management system|

---

US6175922B1|1996-12-04|2001-01-16|Esign, Inc.|Electronic transaction systems and methods therefor|

---

JP3119182B2|1996-12-04|2000-12-18|トヨタ自動車株式会社|Emergency call system|

---

US6044062A|1996-12-06|2000-03-28|Communique, Llc|Wireless network system and method for providing same|

---

US6178173B1|1996-12-30|2001-01-23|Paradyne Corporation|System and method for communicating pre-connect information in a digital communication system|

---

US5883886A|1997-01-03|1999-03-16|Motorola, Inc.|Utility meter readings on a reverse channel of a two-way paging system|

---

US6049272A|1997-01-22|2000-04-11|Boyd B. Moore et al.|Automated data transmission link to law enforcement and security personnel|

---

US6396839B1|1997-02-12|2002-05-28|Abb Automation Inc.|Remote access to electronic meters using a TCP/IP protocol suite|

---

US6233327B1|1997-02-14|2001-05-15|Statsignal Systems, Inc.|Multi-function general purpose transceiver|

---

US5926531A|1997-02-14|1999-07-20|Statsignal Systems, Inc.|Transmitter for accessing pay-type telephones|

---

US6073169A|1997-04-08|2000-06-06|Abb Power T&D Company Inc.|Automatic meter reading system employing common broadcast command channel|

---

US5914656A|1997-04-10|1999-06-22|Nexsys Comtech International, Inc.|Environmental condition detector transmitter interface|

---

US6359555B1|1997-04-16|2002-03-19|A.L. Airdata, Inc.|Alarm monitoring and control system and method|

---

US5963650A|1997-05-01|1999-10-05|Simionescu; Dan|Method and apparatus for a customizable low power RF telemetry system with high performance reduced data rate|

---

GB2326002A|1997-06-06|1998-12-09|Centrepoint Technology Limited|Remote reading of meters and sensors|

---

US5923269A|1997-06-06|1999-07-13|Abb Power T&D Company Inc.|Energy meter with multiple protocols for communication with local and wide area networks|

---

US5874903A|1997-06-06|1999-02-23|Abb Power T & D Company Inc.|RF repeater for automatic meter reading system|

---

US6064318A|1997-06-11|2000-05-16|The Scientex Corporation|Automated data acquisition and processing of traffic information in real-time system and method for same|

---

US6078888A|1997-07-16|2000-06-20|Gilbarco Inc.|Cryptography security for remote dispenser transactions|

---

US6471087B1|1997-07-31|2002-10-29|Larry Shusterman|Remote patient monitoring system with garment and automated medication dispenser|

---

US6751196B1|1997-08-27|2004-06-15|Philips Electronics North America Corp.|Apparatus and method for peer-to-peer link monitoring of a wireless network with centralized control|

---

AU9480798A|1997-09-12|1999-03-29|Williams Wireless, Inc.|Wide area remote telemetry|

---

SE9703327L|1997-09-12|1999-03-13|Ericsson Telefon Ab L M|Method and apparatus for data communication|

---

US6891838B1|1998-06-22|2005-05-10|Statsignal Ipc, Llc|System and method for monitoring and controlling residential devices|

---

US7027416B1|1997-10-01|2006-04-11|Honeywell, Inc.|Multi tier wireless communication system|

---

US5987421A|1998-02-05|1999-11-16|Morfun Systems, Inc.|Computerized system and method for locating individual members of discrete groups and for electronically registering and holding the' groups position in waiting lines|

---

US6067030A|1998-03-13|2000-05-23|At&T Corp.|Method and apparatus for providing network infrastructure information for a network control center|

---

US6457038B1|1998-03-19|2002-09-24|Isochron Data Corporation|Wide area network operation's center that sends and receives data from vending machines|

---

US6618709B1|1998-04-03|2003-09-09|Enerwise Global Technologies, Inc.|Computer assisted and/or implemented process and architecture for web-based monitoring of energy related usage, and client accessibility therefor|

---

GB2336272A|1998-04-08|1999-10-13|Smoothing Investment Limited|Remote reading of utility meters|

---

US5897421A|1998-04-23|1999-04-27|Rink; Donna M.|Alpha beanie buddies|

---

JPH11353573A|1998-06-10|1999-12-24|Ntt Electornics Corp|Radio remote meter-reading system|

---

US7103511B2|1998-10-14|2006-09-05|Statsignal Ipc, Llc|Wireless communication networks for providing remote monitoring of devices|

---

US7650425B2|1999-03-18|2010-01-19|Sipco, Llc|System and method for controlling communication between a host computer and communication devices associated with remote devices in an automated monitoring system|

---

US6141347A|1998-08-26|2000-10-31|Motorola, Inc.|Wireless communication system incorporating multicast addressing and method for use|

---

JP2000113590A|1998-10-08|2000-04-21|Pioneer Electronic Corp|Information recording device|

---

US6218958B1|1998-10-08|2001-04-17|International Business Machines Corporation|Integrated touch-skin notification system for wearable computing devices|

---

EP0999717A2|1998-11-05|2000-05-10|Caly, Inc.|Broadband wireless mesh topology network|

---

AUPP776498A0|1998-12-17|1999-01-21|Portus Pty Ltd|Local and remote monitoring using a standard web browser|

---

US6366622B1|1998-12-18|2002-04-02|Silicon Wave, Inc.|Apparatus and method for wireless communications|

---

US6405018B1|1999-01-11|2002-06-11|Metawave Communications Corporation|Indoor distributed microcell|

---

US6060994A|1999-01-20|2000-05-09|Tempa Communication Inc.|Method for controlling united home security system|

---

US6188354B1|1999-03-29|2001-02-13|Qualcomm Incorporated|Method and apparatus for determining the location of a remote station in a CDMA communication network|

---

US6174205B1|1999-05-28|2001-01-16|3Com Corporation|Communication card extension and adapter port|

---

US6181284B1|1999-05-28|2001-01-30|3 Com Corporation|Antenna for portable computers|

---

GB9912559D0|1999-05-28|1999-07-28|Fusion Meters Ltd|Meter reader|

---

AU5996400A|1999-07-10|2001-01-30|Donald George Mackenzie|Tie|

---

JP2001063425A|1999-08-26|2001-03-13|Ikeda Bussan Co Ltd|Seat for vehicle|

---

US6288641B1|1999-09-15|2001-09-11|Nokia Corporation|Assembly, and associated method, for remotely monitoring a surveillance area|

---

JP2001088401A|1999-09-27|2001-04-03|Canon Inc|Machinery for mechanizing office work|

---

US6735630B1|1999-10-06|2004-05-11|Sensoria Corporation|Method for collecting data using compact internetworked wireless integrated network sensors |

---

US6275707B1|1999-10-08|2001-08-14|Motorola, Inc.|Method and apparatus for assigning location estimates from a first transceiver to a second transceiver|

---

EP1096454A2|1999-10-27|2001-05-02|TRW Inc.|Automatic meter reading system|

---

US6687583B1|1999-12-15|2004-02-03|Yacht Watchman International|Vessel monitoring system|

---

US6671819B1|2000-04-06|2003-12-30|Bbnt Solutions Llc|System and methods routing packets on alterate paths|

---

JP2001309069A|2000-04-26|2001-11-02|Ricoh Elemex Corp|Radio meter read system to be started by pager|

---

JP3986236B2|2000-05-08|2007-10-03|愛知時計電機株式会社|Wireless meter reading system|

---

JP2001357483A|2000-06-12|2001-12-26|Omron Corp|Radio equipment and radio meter reading system|

---

JP2002007826A|2000-06-19|2002-01-11|Nec Corp|System and method of reservation|

---

JP2002007672A|2000-06-23|2002-01-11|Nec Corp|Method and system for operating cyber type club|

---

JP4615105B2|2000-09-07|2011-01-19|ジーイー・メディカル・システムズ・グローバル・テクノロジー・カンパニー・エルエルシー|Ultrasound imaging device|

---

FR2817110B1|2000-11-17|2005-04-22|Cahors App Elec|TELERELEVE DEVICE FOR MEASURING DEVICES|

---

JP2002171354A|2000-12-01|2002-06-14|Toyo Keiki Co Ltd|Radio equipment for automatic meter-reading system|

---

US7283904B2|2001-10-17|2007-10-16|Airbiquity, Inc.|Multi-sensor fusion|

---

US7424527B2|2001-10-30|2008-09-09|Sipco, Llc|System and method for transmitting pollution information over an integrated wireless network|

---

US6888876B1|2001-12-21|2005-05-03|Elster Electricity, Llc|Frequency hopping spread spectrum communications system|

---

US6604318B1|2002-02-15|2003-08-12|Roger Ray Cassidy|Method and apparatus for exterminating ant colonies utilizing carbon dioxide|

---

US20040133917A1|2003-01-07|2004-07-08|Schilling Donald L.|Video on demand using MCMD and TDM or FDM|

---

US8031650B2|2004-03-03|2011-10-04|Sipco, Llc|System and method for monitoring remote devices with a dual-mode wireless communication protocol|

---

US7756086B2|2004-03-03|2010-07-13|Sipco, Llc|Method for communicating in dual-modes|

---

US9439126B2|2005-01-25|2016-09-06|Sipco, Llc|Wireless network protocol system and methods|US7089089B2|2003-03-31|2006-08-08|Power Measurement Ltd.|Methods and apparatus for retrieving energy readings from an energy monitoring device|

---

US6233327B1|1997-02-14|2001-05-15|Statsignal Systems, Inc.|Multi-function general purpose transceiver|

---

US6628764B1|1997-02-14|2003-09-30|Statsignal Systems, Inc.|System for requesting service of a vending machine|

---

US7103511B2|1998-10-14|2006-09-05|Statsignal Ipc, Llc|Wireless communication networks for providing remote monitoring of devices|

---

EP1129439A1|1998-11-11|2001-09-05|NCR International, Inc.|Digital data interchange devices and networks|

---

WO2001017298A1|1999-09-02|2001-03-08|Automated Business Companies|Communication and proximity authorization systems|

---

US7720756B2|2000-01-25|2010-05-18|Kavounas Gregory T|Methods, devices and bank computers for consumers using communicators to wire funds to sellers and vending machines|

---

AUPQ623400A0|2000-03-15|2000-04-06|Intellectual Exchange Pty Limited|Smart packaging|

---

US6868074B1|2000-03-30|2005-03-15|Mci, Inc.|Mobile data device and method of locating mobile data device|

---

JP2002163708A|2000-11-27|2002-06-07|Mitsubishi Electric Corp|System and method for sales management|

---

US20020065703A1|2000-11-30|2002-05-30|Garg Sushil K.|Tow management system|

---

US6765993B2|2001-03-09|2004-07-20|General Electric Company|Information gathering system for remotely monitoring and diagnosing equipment condition|

---

US20030036810A1|2001-08-15|2003-02-20|Petite Thomas D.|System and method for controlling generation over an integrated wireless network|

---

US6671586B2|2001-08-15|2003-12-30|Statsignal Systems, Inc.|System and method for controlling power demand over an integrated wireless network|

---

US8059412B2|2001-12-14|2011-11-15|Perkins Technical Services, Inc.|Integrated power supply and platform for military radio|

---

US7444401B1|2002-11-18|2008-10-28|Arkion Systems Llc|Method and apparatus for inexpensively monitoring and controlling remotely distributed appliances|

---

US7620157B2|2003-04-08|2009-11-17|Holmes Andrew S|System for requesting service of a machine|

---

US7417558B2|2003-05-12|2008-08-26|Power Measurement Ltd.|Wireless communications system incorporating intelligent electronic devices|

---

US8587452B2|2003-05-12|2013-11-19|Power Measurement Ltd.|Time coordinated energy monitoring system utilizing communications links|

---

US7802015B2|2004-01-26|2010-09-21|Tantalus Systems Corp.|Communications system of heterogeneous elements|

---

US7412842B2|2004-04-27|2008-08-19|Emerson Climate Technologies, Inc.|Compressor diagnostic and protection system|

---

US7275377B2|2004-08-11|2007-10-02|Lawrence Kates|Method and apparatus for monitoring refrigerant-cycle systems|

---

US7706745B2|2004-12-03|2010-04-27|M&Fc Holding, Llc|Method, system, apparatus, and computer program product for communications relay|

---

AU2007247918B2|2006-05-04|2011-07-21|Capstone Mobile Technologies, Llc|System and method for remotely monitoring and controlling a water meter|

---

US8690117B2|2006-05-04|2014-04-08|Capstone Metering Llc|Water meter|

---

US8590325B2|2006-07-19|2013-11-26|Emerson Climate Technologies, Inc.|Protection and diagnostic module for a refrigeration system|

---

US7738611B2|2006-08-07|2010-06-15|Harris Stratex Networks, Inc.|Remote monitoring and calibration of system reference clock using network timing reference|

---

US7847536B2|2006-08-31|2010-12-07|Itron, Inc.|Hall sensor with temperature drift control|

---

US20080074285A1|2006-08-31|2008-03-27|Guthrie Kevin D|Interface between meter and application |

---

US8024724B2|2006-08-31|2011-09-20|Itron, Inc.|Firmware download|

---

US8312103B2|2006-08-31|2012-11-13|Itron, Inc.|Periodic balanced communication node and server assignment|

---

US20080071930A1|2006-09-01|2008-03-20|Holbrook Kenneth J|Native network transport|

---

US8049642B2|2006-09-05|2011-11-01|Itron, Inc.|Load side voltage sensing for AMI metrology|

---

US20080216494A1|2006-09-07|2008-09-11|Pham Hung M|Compressor data module|

---

US9354083B2|2006-09-15|2016-05-31|Itron, Inc.|Home area networkingwith low power considerations for battery devices|

---

US7843391B2|2006-09-15|2010-11-30|Itron, Inc.|RF local area network antenna design|

---

US8138944B2|2006-09-15|2012-03-20|Itron, Inc.|Home area networkingwith handheld for diagnostics|

---

US8055461B2|2006-09-15|2011-11-08|Itron, Inc.|Distributing metering responses for load balancing an AMR network|

---

US7965758B2|2006-09-15|2011-06-21|Itron, Inc.|Cell isolation through quasi-orthogonal sequences in a frequency hopping network|

---

US8787210B2|2006-09-15|2014-07-22|Itron, Inc.|Firmware download with adaptive lost packet recovery|

---

US8212687B2|2006-09-15|2012-07-03|Itron, Inc.|Load side voltage sensing for AMI metrology|

---

US8384558B2|2006-10-19|2013-02-26|Itron, Inc.|Extending contact life in remote disconnect applications|

---

US20080273486A1|2007-04-13|2008-11-06|Hart Communication Foundation|Wireless Protocol Adapter|

---

US8570922B2|2007-04-13|2013-10-29|Hart Communication Foundation|Efficient addressing in wireless hart protocol|

---

US8356431B2|2007-04-13|2013-01-22|Hart Communication Foundation|Scheduling communication frames in a wireless network|

---

US8676219B2|2007-04-13|2014-03-18|Hart Communication Foundation|Combined wired and wireless communications with field devices in a process control environment|

---

US8230108B2|2007-04-13|2012-07-24|Hart Communication Foundation|Routing packets on a network using directed graphs|

---

US8325627B2|2007-04-13|2012-12-04|Hart Communication Foundation|Adaptive scheduling in a wireless network|

---

US20090037142A1|2007-07-30|2009-02-05|Lawrence Kates|Portable method and apparatus for monitoring refrigerant-cycle systems|

---

US8700187B2|2007-08-28|2014-04-15|Consert Inc.|Method and apparatus for actively managing consumption of electric power supplied by one or more electric utilities|

---

US7715951B2|2007-08-28|2010-05-11|Consert, Inc.|System and method for managing consumption of power supplied by an electric utility|

---

US10295969B2|2007-08-28|2019-05-21|Causam Energy, Inc.|System and method for generating and providing dispatchable operating reserve energy capacity through use of active load management|

---

US9130402B2|2007-08-28|2015-09-08|Causam Energy, Inc.|System and method for generating and providing dispatchable operating reserve energy capacity through use of active load management|

---

US8996183B2|2007-08-28|2015-03-31|Consert Inc.|System and method for estimating and providing dispatchable operating reserve energy capacity through use of active load management|

---

US9177323B2|2007-08-28|2015-11-03|Causam Energy, Inc.|Systems and methods for determining and utilizing customer energy profiles for load control for individual structures, devices, and aggregation of same|

---

US8806239B2|2007-08-28|2014-08-12|Causam Energy, Inc.|System, method, and apparatus for actively managing consumption of electric power supplied by one or more electric power grid operators|

---

US8260470B2|2007-08-28|2012-09-04|Consert, Inc.|System and method for selective disconnection of electrical service to end customers|

---

US8542685B2|2007-08-28|2013-09-24|Consert, Inc.|System and method for priority delivery of load management messages on IP-based networks|

---

US8805552B2|2007-08-28|2014-08-12|Causam Energy, Inc.|Method and apparatus for actively managing consumption of electric power over an electric power grid|

---

US8131403B2|2007-08-28|2012-03-06|Consert, Inc.|System and method for determining and utilizing customer energy profiles for load control for individual structures, devices, and aggregation of same|

---

US8145361B2|2007-08-28|2012-03-27|Consert, Inc.|System and method for manipulating controlled energy using devices to manage customer bills|

---

US8527107B2|2007-08-28|2013-09-03|Consert Inc.|Method and apparatus for effecting controlled restart of electrical servcie with a utility service area|

---

CA2761038C|2009-05-08|2015-12-08|Consert Inc.|System and method for estimating and providing dispatchable operating reserve energy capacity through use of active load management|

---

MX2012004186A|2009-10-09|2012-07-17|Consert Inc|Apparatus and method for controlling communications to and from utility service points.|

---

US8890505B2|2007-08-28|2014-11-18|Causam Energy, Inc.|System and method for estimating and providing dispatchable operating reserve energy capacity through use of active load management|

---

US9730078B2|2007-08-31|2017-08-08|Fisher-Rosemount Systems, Inc.|Configuring and optimizing a wireless mesh network|

---

EP2203911A4|2007-10-25|2011-12-28|Trilliant Networks Inc|Gas meter having ultra-sensitive magnetic material retrofitted onto meter dial and method for performing meter retrofit|

---

US9140728B2|2007-11-02|2015-09-22|Emerson Climate Technologies, Inc.|Compressor sensor module|

---

CA2705074A1|2007-11-25|2009-05-28|Trilliant Networks, Inc.|Energy use control system and method|

---

WO2009067248A1|2007-11-25|2009-05-28|Trilliant Networks, Inc.|Application layer authorization token and method|

---

US8138934B2|2007-11-25|2012-03-20|Trilliant Networks, Inc.|System and method for false alert filtering of event messages within a network|

---

CA2705093A1|2007-11-25|2009-05-28|Trilliant Networks, Inc.|Communication and message route optimization and messaging in a mesh network|

---

US8171364B2|2007-11-25|2012-05-01|Trilliant Networks, Inc.|System and method for power outage and restoration notification in an advanced metering infrastructure network|

---

US8441947B2|2008-06-23|2013-05-14|Hart Communication Foundation|Simultaneous data packet processing|

---

EP2321983B1|2008-09-04|2018-05-09|Trilliant Networks, Inc.|Method for implementing mesh network communications using a mesh network protocol|

---

EP2350992B1|2008-10-27|2019-01-09|Mueller International, LLC|Infrastructure monitoring system and method|

---

US8289182B2|2008-11-21|2012-10-16|Trilliant Networks, Inc.|Methods and systems for virtual energy management display|

---

CA2753074A1|2009-03-11|2010-09-16|Trilliant Networks, Inc.|Process, device and system for mapping transformers to meters and locating non-technical line losses|

---

EP2433440B1|2009-05-22|2018-07-25|Mueller International, LLC|Infrastructure monitoring devices, systems, and methods|

---

US8391277B2|2009-08-18|2013-03-05|Cable Television Laboratories, Inc.|Interoperability of legacy alarm system|

---

CA2712766C|2009-09-11|2014-02-18|Elster Amco Water, Inc.|Improved pit mount interface device|

---

CA2712902C|2009-09-11|2013-10-29|Elster Amco Water, Inc.|Horizontal pit mount interface device|

---

US8371213B2|2009-09-16|2013-02-12|PTR Baler and Compactor Company|Diagnostic system for compactor/baler apparatus|

---

US8477911B2|2010-02-05|2013-07-02|Instant Care, Inc.|Personal emergency response system with alternative voice line capability|

---

WO2011159403A1|2010-06-16|2011-12-22|Mueller International, Llc|Infrastructure monitoring devices, systems, and methods|

---

WO2012027634A1|2010-08-27|2012-03-01|Trilliant Networkd, Inc.|System and method for interference free operation of co-located tranceivers|

---

US9013173B2|2010-09-13|2015-04-21|Trilliant Networks, Inc.|Process for detecting energy theft|

---

WO2012068045A2|2010-11-15|2012-05-24|Trilliant Holdings Inc.|System and method for securely communicating across multiple networks using a single radio|

---

WO2012097204A1|2011-01-14|2012-07-19|Trilliant Holdings, Inc.|Process, device and system for volt/var optimization|

---

US8970394B2|2011-01-25|2015-03-03|Trilliant Holdings Inc.|Aggregated real-time power outages/restoration reportingin a secure mesh network|

---

EP3288236B1|2011-02-10|2020-04-01|Trilliant Holdings, Inc.|Device and method for facilitating secure communications over a cellular network|

---

AU2012223466B2|2011-02-28|2015-08-13|Emerson Electric Co.|Residential solutions HVAC monitoring and diagnosis|

---

US9041349B2|2011-03-08|2015-05-26|Trilliant Networks, Inc.|System and method for managing load distribution across a power grid|

---

DE102011018749B4|2011-04-27|2016-09-15|Audi Ag|A method of activating a function of a vehicle from a long distance|

---

US8833390B2|2011-05-31|2014-09-16|Mueller International, Llc|Valve meter assembly and method|

---

US9001787B1|2011-09-20|2015-04-07|Trilliant Networks Inc.|System and method for implementing handover of a hybrid communications module|

---

US8810414B2|2011-09-21|2014-08-19|Honeywell International Inc.|Situational awareness system and method for disconnect switches in electrical substations|

---

US10200476B2|2011-10-18|2019-02-05|Itron, Inc.|Traffic management and remote configuration in a gateway-based network|

---

US8855569B2|2011-10-27|2014-10-07|Mueller International, Llc|Systems and methods for dynamic squelching in radio frequency devices|

---

US8660134B2|2011-10-27|2014-02-25|Mueller International, Llc|Systems and methods for time-based hailing of radio frequency devices|

---

US9419888B2|2011-12-22|2016-08-16|Itron, Inc.|Cell router failure detection in a mesh network|

---

US8964338B2|2012-01-11|2015-02-24|Emerson Climate Technologies, Inc.|System and method for compressor motor protection|

---

WO2013142334A1|2012-03-19|2013-09-26|Paynet Payments Network, Llc|Systems and methods for real-time account access|

---

US9207698B2|2012-06-20|2015-12-08|Causam Energy, Inc.|Method and apparatus for actively managing electric power over an electric power grid|

---

US9465398B2|2012-06-20|2016-10-11|Causam Energy, Inc.|System and methods for actively managing electric power over an electric power grid|

---

US9461471B2|2012-06-20|2016-10-04|Causam Energy, Inc|System and methods for actively managing electric power over an electric power grid and providing revenue grade date usable for settlement|

---

US9563215B2|2012-07-14|2017-02-07|Causam Energy, Inc.|Method and apparatus for actively managing electric power supply for an electric power grid|

---

US8983669B2|2012-07-31|2015-03-17|Causam Energy, Inc.|System, method, and data packets for messaging for electric power grid elements over a secure internet protocol network|

---

US9513648B2|2012-07-31|2016-12-06|Causam Energy, Inc.|System, method, and apparatus for electric power grid and network management of grid elements|

---

US10861112B2|2012-07-31|2020-12-08|Causam Energy, Inc.|Systems and methods for advanced energy settlements, network-based messaging, and applications supporting the same on a blockchain platform|

---

US9468162B2|2012-08-01|2016-10-18|Rain Bird Corporation|Irrigation controller wireless network adapter and networked remote service|

---

US9310439B2|2012-09-25|2016-04-12|Emerson Climate Technologies, Inc.|Compressor having a control and diagnostic module|

---

US8849715B2|2012-10-24|2014-09-30|Causam Energy, Inc.|System, method, and apparatus for settlement for participation in an electric power grid|

---

US20140116572A1|2012-10-26|2014-05-01|Matthew Flournoy|Vehicle fluid exchange with telemetry data transfer|

---

EP2730159B1|2012-11-07|2019-03-20|Rain Bird Corporation|Irrigation control system|

---

CA2892512A1|2012-11-28|2014-06-05|Renewable Edge, Llc|Custom wireless retrofitted solar powered public telephone|

---

US10180414B2|2013-03-15|2019-01-15|Mueller International, Llc|Systems for measuring properties of water in a water distribution system|

---

US9551504B2|2013-03-15|2017-01-24|Emerson Electric Co.|HVAC system remote monitoring and diagnosis|

---

AU2014229103B2|2013-03-15|2016-12-08|Emerson Electric Co.|HVAC system remote monitoring and diagnosis|

---

US9803902B2|2013-03-15|2017-10-31|Emerson Climate Technologies, Inc.|System for refrigerant charge verification using two condenser coil temperatures|

---

US9215075B1|2013-03-15|2015-12-15|Poltorak Technologies Llc|System and method for secure relayed communications from an implantable medical device|

---

US9626817B2|2013-03-29|2017-04-18|Aesynt Incorporated|Apparatuses, systems, and methods for storing and dispensing medication proximate a patient|

---

CN106030221B|2013-04-05|2018-12-07|艾默生环境优化技术有限公司|Heat pump system with refrigerant charging diagnostic function|

---

US8779919B1|2013-11-03|2014-07-15|Instant Care, Inc.|Event communication apparatus and method|

---

WO2015139026A2|2014-03-14|2015-09-17|Go Tenna Inc.|System and method for digital communication between computing devices|

---

US9494249B2|2014-05-09|2016-11-15|Mueller International, Llc|Mechanical stop for actuator and orifice|

---

US9565620B2|2014-09-02|2017-02-07|Mueller International, Llc|Dynamic routing in a mesh network|

---

US9870476B2|2014-09-23|2018-01-16|Accenture Global Services Limited|Industrial security agent platform|

---

US11041839B2|2015-06-05|2021-06-22|Mueller International, Llc|Distribution system monitoring|

---

US10475138B2|2015-09-23|2019-11-12|Causam Energy, Inc.|Systems and methods for advanced energy network|

---

US10118696B1|2016-03-31|2018-11-06|Steven M. Hoffberg|Steerable rotating projectile|

---

US10871242B2|2016-06-23|2020-12-22|Rain Bird Corporation|Solenoid and method of manufacture|

---

WO2018013964A1|2016-07-15|2018-01-18|Rain Bird Corporation|Wireless remote irrigation control|

---

US10833799B2|2018-05-31|2020-11-10|Itron Global Sarl|Message correction and dynamic correction adjustment for communication systems|

---

US11216742B2|2019-03-04|2022-01-04|Iocurrents, Inc.|Data compression and communication using machine learning|

法律状态:
2001-07-19| AS| Assignment|Owner name: STATSIGNAL SYSTEMS, INC., GEORGIA Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:PETITE, THOMAS D.;REEL/FRAME:011995/0547 Effective date: 20010709 |

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2004-09-09| AS| Assignment|Owner name: STATSIGNAL IPC, LLC, GEORGIA Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:STATSIGNAL SYSTEMS, INC.;REEL/FRAME:015788/0684 Effective date: 20040419 |

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2008-06-18| STCF| Information on status: patent grant|Free format text: PATENTED CASE |

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2012-01-09| FPAY| Fee payment|Year of fee payment: 4 |

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2012-02-27| AS| Assignment|Owner name: PETITE, DAVID, GEORGIA Free format text: SECURITY AGREEMENT;ASSIGNOR:SIPCO LLC;REEL/FRAME:027766/0065 Effective date: 20120217 Owner name: PETITE, CANDIDA, GEORGIA Free format text: SECURITY AGREEMENT;ASSIGNOR:SIPCO LLC;REEL/FRAME:027766/0065 Effective date: 20120217 Owner name: LEE, OLIVER, GEORGIA Free format text: SECURITY AGREEMENT;ASSIGNOR:SIPCO LLC;REEL/FRAME:027766/0065 Effective date: 20120217 |

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2020-08-10| STCH| Information on status: patent discontinuation|Free format text: PATENT EXPIRED DUE TO NONPAYMENT OF MAINTENANCE FEES UNDER 37 CFR 1.362 |

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优先权:

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申请号 | 申请日 | 专利标题

---

US4031697P| true| 1997-02-14|1997-02-14||

---

US08/825,576|US7137550B1|1997-02-14|1997-03-31|Transmitter for accessing automated financial transaction machines|

---

US08/895,720|US5926531A|1997-02-14|1997-07-17|Transmitter for accessing pay-type telephones|

---

US91098097A| true| 1997-08-07|1997-08-07||

---

US5964397P| true| 1997-09-20|1997-09-20||

---

US09/102,399|US6233327B1|1997-02-14|1998-06-22|Multi-function general purpose transceiver|

---

US09/756,386|US7397907B2|1997-02-14|2001-01-08|Multi-function general purpose transceiver|US09/756,386| US7397907B2|1997-02-14|2001-01-08|Multi-function general purpose transceiver|

---

US12/169,536| US8335304B2|1997-02-14|2008-07-08|Multi-function general purpose transceivers and devices|

---

US13/717,384| US8908842B2|1997-02-14|2012-12-17|Multi-functional general purpose transceivers and devices|

---

US14/564,523| US20150092648A1|1997-02-14|2014-12-09|Multi-function general purpose transceivers & devices|

---

US14/626,204| US20150172914A1|1997-02-14|2015-02-19|Multi-function general purpose transceivers & devices|