澳大利亚专利AU2013206628A1 Home appliance and method of outputting signal sound for diagnosis

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专利摘要:
Provided are a borne appliance and a method of outputting a signal sound for diagnosis. The home appliance includes: a selection unit for receiving a diagnosis command on the home appliance from a user; a memory for storing diagnosis data on 5 the borne appliance; a controller for processing the diagnosis data stored in the memory in order to generate a packet according to a diagnosis command input through the selection unit; a conversion unit for generating a frame including a combination of symbols, which respectively correspond to four different carrier frequencies, on the basis of data constituting the packet, according to a Quadrature Frequency Shift Keying 10 (QFSK) method. - 2 3 DEVICE S i ] 0 0. 2 3 0 S 1 - 100 |d-c l 100 > 9S ffS 16
公开号:AU2013206628A1
申请号:U2013206628
申请日:2013-07-01
公开日:2014-01-23
发明作者:Sangdoo Ha；Deoghyeon Kim；Moonhyun Kim；Jinwook Lee
申请人:LG Electronics Inc；
IPC主号:H04M11-00

专利说明:
HOME APPLIANCE AND METHOD OF OUTPUTTING SIGNAL SOUND FOR DIAGNOSIS This application claims priority to Korean Patent application no. 10-2012 5 0072381 filed July 3, 2012, which is hereby incorporated by reference. BACKGROUND 1. Field 10 The present disclosure relates to a home appliance for outputting diagnosis data as a signal sound and a method of outputting such a signal sound. 2. Description of the Related Art Typically, a user contacts a service center when a home appliance breaks down 15 and a technician personally visits the user for repair. However, such a personal visit by a technician causes excessive costs and also, without prior information on the home appliance, it is difficult to repair the home appliance effectively. Later, with the development of technology, a telephone network is used to remotely diagnose failure information. 20 Moreover, European patent application no. EP0510519 discloses a technique that sending failure information on a home appliance to a service center via a telephone 1 network with a modem connected to the home appliance. However, in this case, there is a problem that the modem needs to be always connected the home appliance. Especially, since a home appliance such as a laundry washing machine is generally installed outdoors, there is difficulty connecting the laundry washing machine to a telephone 5 network. US Patent no. 5987105 discloses a method of controlling a home appliance that converts information on the operation of a home appliance into a sound signal and outputs it through a telephone network. Such a control method sends a sound signal outputted from a home appliance to a service center through a user's phone. In terms of 10 the structure of the data packets constituting the sound signal, the information to be transmitted into a plurality of packets for output. One packet is configured with a 2.97 sec duration, and when one packet is outputted, the next packet is outputted 730 ms later. Accordingly, outputting all the information to be transmitted takes more than 3 sec. A portable terminal such as a mobile phone or smart phone provides a noise 15 canceling function. When a signal having a predetermined frequency is continuously detected for a predetermined time (about 3 sec), such a noise canceling function recognizes the signal as noise. Furthermore, the signal sound intensity is drastically reduced or distorted by a communication environment when the signal sound is inputted to a portable terminal, as disclosed in Patent no. US5987105. Even when an idle period 20 (for example, 730 ms) is set between packets (each length configured with less than 3 2 see), the signal may still be recognized as noise. For reference, patent no. US5987105 provides no suggestion or recognition of the noise canceling function of a portable terminal, let alone a method of evading the above issue. 5 SUMMARY Aspects of an invention are defined in the appended independent claims. The foregoing and other objects, features, aspects and advantages of a device and method in accordance with the present disclosure will become more apparent from the following detailed description when taken in conjunction with the accompanying 10 drawings. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this 15 specification, illustrate embodiments of the disclosure and together with the description serve to explain the principles of the disclosure. In the drawings: FIG. 1 is a view illustrating a process for diagnosing a home appliance according to an embodiment; 20 FIG. 2 is a block diagram illustrating a configuration of a home appliance and a 3 diagnostic system including the same according to an embodiment; FIG. 3 is a view illustrating carrier frequencies constituting a signal outputted from a home appliance according to an embodiment; FIG. 4 is a view when data (a) constituting a packet are converted through 5 Binary Frequency Shift Keying (BFSK) method (b) and are converted through Quadrature Frequency Shift Keying (QFSK) method (c); FIG. 5 is a comparison view of an output time (b) using the BFSK method and an output time (c) using the QFSK method when data (a) constituting a packet are outputted under the assumption that a symbol time is identically set; 10 FIG. 6 is a view illustrating a packet in an application layer and a frame in a physical layer corresponding thereto in a home appliance according to an embodiment; FIG. 7 is a flowchart illustrating a signal converting process in a home appliance diagnosis system; and FIG. 8 is a view illustrating a configuration of a frame generated through a 15 signal converting process in the home appliance diagnosis system of FIG. 7. DETAILED DESCRIPTION While specific terms are used, they are not used to limit the meaning or the scope of the present disclosure described in Claims, but merely used to explain the 20 present disclosure. Accordingly, a person having ordinary skill in the art will understand 4 from the above that various modifications and other equivalent embodiments are also possible. The invention is not restricted to the described embodiments but extends to the full scope of the accompanying Claims. Like reference numerals refer to like elements throughout. 5 FIG. 1 is a view illustrating a process for diagnosing a home appliance according to an embodiment. FIG. 2 is a block diagram illustrating a configuration of a home appliance and a diagnostic system including the same according to an embodiment of the present invention. Referring to FIG. 1, typically, the home appliance 100 may include a sound 10 output unit 181 such as a buzzer or speaker for outputting a warning sound or confirmation sound, and through this, a user may recognize a failure or abnormal operation of the home appliance 100 in operation S 11. Furthermore, the home appliance 100 may provide a function for outputting diagnosis data as a sound that combines specific frequencies. Such a sound signal may be outputted through the sound output 15 unit 181 typically equipped for outputting an alarm sound or confirmation sound (or, an additional sound output means for outputting a sound different from that). Moreover, a user, who recognizes an abnormality of a home appliance through an alarm sound outputted from the sound output unit 181, may call a service center to describe an abnormal symptom of the home appliance and may inquire about a 20 corresponding solution or request a repair. Of course, regardless of an output of the 5 sound output unit 181, a user may directly recognize an abnormal operation of the home appliance 100, and may contact a service center in some cases in operation S 12. While a call is connected to a service center, a service center agent may file the complaint of the user, and may attempt to give a corresponding solution. In some cases, 5 specific information on a symptom of a home appliance is required. The agent explains to a user a method of outputting diagnosis data as sound in operation S 13. According to the explanation, a user may put the communication terminal 230 close to the sound output unit 181, and then, may manipulates a user input means, equipped in a control panel of the home appliance 100, in order to output a 10 predetermined sound including the diagnosis data through the sound output unit 181. Herein, the diagnosis data may include identification information for identifying the type of the home appliance 100, information on a current driving state or recent driving state of the home appliance 100 (hereinafter, referred to as driving information), setting values set according to a user's manipulation or a running pre-stored algorithm 15 (hereinafter, referred to as setting information), and information stored when a failure or abnormal operation of the home appliance 100 is detected according to a self-diagnosis algorithm (hereinafter, referred to as failure information). The sound signal including the diagnosis data outputted through the sound output unit 181 may be transmitted to a service center via a communication network in 20 operation S 14. The service center may include a management device 290 for receiving 6 the signal sound transmitted via the communication network. The management device 290 may reversely extract the diagnosis data from the signal sound transmitted via the communication network, and may diagnose the home appliance 100 on the basis of the extracted information. 5 . Using the 3G and 4G communication methods, the inventors have found that when the diagnosis data is modulated and transmitted using a carrier frequency in a such a frequency band, due to signal attenuation or distortion occurring during the transmission via the communication network, a reception side that receives the diagnosis data may not accurately extract the diagnosis data. The present disclosure 10 provides a more accurate method of transmitting diagnosis data under 3G and 4G environments, and this will be described in more detail later. In a further advantageous embodiment, the inventors have found that owing to 3G and 4G generation mobile telecommunications suitable for the use of smartphones, the carrier frequencies used for transmitting signals in accordance with the present disclosure are advantageously less 15 than 2 kHz. Moreover, as is well known, the 3G mobile communication refers to the standard of a mobile phone and a mobile communication, which satisfies the requirements from International Mobile Telecommunications-2000 (IMT-2000) of International Telecommunication Union. The 4G mobile communication succeeds the 20 3G mobile communication and provides more improved mobile communication 7 environment. The management device 290, which receives a sound signal including the diagnosis data via a communication network, may again extract the diagnosis data from the signal sound through a reverse conversion process on the signal, and based on this, 5 may diagnose the home appliance 100 through a predetermined diagnosis algorithm. However, according to an embodiment, the home appliance 100 may run a self diagnosis algorithm in order to perform a diagnosis, and then, may output its result in the signal sound. In this case, the diagnosis data may include a result generated through a diagnosis algorithm, that is, a diagnosis result. 10 In either case, the side including the management device 290, for example, the service center, may provide appropriate service to a user on the basis of the diagnosis result, and may dispatch a service man 93 to the home, if necessary in operation S16. Referring to FIG. 2, a home appliance diagnostic system according to an embodiment may include a home appliance 100 for outputting a sound signalincluding diagnosis data, 15 and a management device 290 for receiving a sound signal outputted from the home appliance 100 via a communication network, and based on this, diagnosing the home appliance 100. Diagnosis data mentioned below will be described as one that is generated by running a self-diagnosis algorithm in the home appliance 100 and using its result, but are not limited thereto. As described above, the diagnosis data may include 20 variables used for running a diagnosis algorithm in the management device 290. 8 The home appliance 100 may include a manipulation unit 150 for receiving from a user a control command various kinds of information for operation of the home appliance 100, and a diagnosis selection unit 160 for selecting a diagnosis run command. The manipulation unit 150 and the diagnosis selection unit 160 may be separately 5 provided, but according to an embodiment, if an input method of a specific key among manipulation keys such as buttons and dials constituting the manipulation unit 150 is used (for example, when the input length of the power button is more than a predetermined time), the power button may serve as the diagnosis selection unit 160 (as opposed to turning on/off the home appliance 100). Therefore, providing the relatively 10 less used diagnosis selection 160. As another example, when a predetermined pattern is inputted according to the input order of specific keys, this may serve as the diagnosis selection unit 160, which is not the basic function of each key. That is, various embodiments may be possible. Once a diagnosis command is inputted through the diagnosis selection unit 160, 15 the controller 170 may run the diagnosis algorithm stored in the storage unit 140, on the basis of the diagnosis data stored in the memory 141 or the data called from the memory 141 in order to constitute a packet of an application layer through a predetermined data processing process by using the diagnosis data generated from the diagnosis algorithm, and then, may perform a modulation process through a control of the conversion unit 20 180 in order to constitute a frame of a physical layer including a combination of 9 symbols corresponding to a carrier frequency. A progressing state of such a process may be displayed through the display unit 118, and the display unit 118 may be implemented with a visual display means such as an LCD and LED, which is typically provided to the control panel in order to display an operational state of the home appliance 100. 5 Here, the memory 141 may be a recording medium for temporarily storing diagnosis data, and may include RAM, FLASH MEMORY, EDORAM, magnetic recording medium, and recording/deleting possible optical recording medium, regardless of volatile or nonvolatile properties. The storage unit 140 may be a recording medium for storing a diagnosis algorithm, and may be nonvolatile recording medium 10 for retaining recorded data, regardless of power supply of the home appliance 100. The conversion unit 180 may configure a frame corresponding to the packet generated by the controller 170, and the frame may include symbols corresponding to carrier frequencies constituting the signal sound outputted from the sound output unit 181. According to this embodiment, a frequency signal may be generated from 15 diagnosis data through a quadrature frequency shift Keying QFSK, method. Accordingly, a frequency signal generated by the conversion unit 180 includes a combination of four different carrier frequencies. The sound output unit 181 may output a signal sound according to the frequency signal, and may be implemented with a buzzer or a speaker. The sound output 20 unit 181 may be a buzzer for outputting four carrier frequencies which are separately 10 distinguished, advantageously, in a frequency band of less than 2 kHz. FIG. 3 is a view illustrating carrier frequencies constituting a signal outputted from a home appliance according to an embodiment. FIG. 4 is a view when data (a) constituting a packet are converted through Binary Frequency Shift Keying (BFSK) 5 method (b) and are converted through Quadrature Frequency Shift Keying (QFSK) method (c). FIG. 5 is a comparison view of an output time (b) using the BFSK method and an output time (c) using the QFSK method when data (a) constituting a packet are outputted, under the assumption that the symbol time is identically set. Referring to FIG. 3, a home appliance according to this embodiment may 10 convert diagnosis data using the QFSK method, and then, may output them. For this, four carrier frequencies are necessary and shown in FIG. 3. In the QFSK method, 2 bit data may correspond to one carrier frequency. Hereinafter, the case of modulating data using for different carrier frequencies of f11, f12, fl3, and f14 will be described as one example. At this point, a carrier frequency 15 corresponding to data '00' is referred to as f 1 201, a carrier frequency corresponding to data '01' is referred to as f12 202, a carrier frequency corresponding to data '10' is referred to as fl3 203, and a carrier frequency corresponding to data '11' is referred to as f14 204. Here, f 11, f 12, f 13 and f 14 may be frequency signals having different values 20 and may have values of less than 2 kHz. Each frequency value may have one of 11 frequency values constituting a scale. Frequency values constituting a scale are widely known. For example, f 11, f 12, f13 and f 14 may be 1396 hz, 1567 hz, 1760 hz, and 1975 hz, respectively. Such values may have F, G, A, B of six octaves based on 12 scales, but are not limited thereto. Here, 5 carrier frequencies are taken not to be adjacent scales, and this is for providing a difference in frequency values in order to clearly distinguish each carrier frequency. Since carrier frequencies have values constituting a scale, a signal sound outputted through the sound output unit 181 may satisfy the emotional aspect of a user, and since there is enough difference between the values, frequencies may be clearly 10 distinguished, and also, a communication success rate may be improved. Referring to FIGS. 4 and 5, data '010100101110' (a) may be converted through the BFSK method using different two frequencies fl and f2 (b) and may be converted through the QFSK method (c). If the output length of the sound signal corresponding to a carrier frequency outputted in correspondence to each symbol (which constitutes a 15 frame in a physical layer (refer to FIG. 8)) is referred to as a symbol time ST, 1 bit corresponds to one symbol in the BFSK method and 2 bits correspond to one symbol in the QFSK method. Therefore, in the case of the same symbol time ST, even when the same amount of data are signalized and outputted, the QFSK method may take a half time of the BFSK method. Accordingly, compared to the BFSK method, the QFSK 20 method may output a larger amount of data as a sound signal within the same time. A 12 home appliance according to an embodiment may therefore complete the output of a sound signal within 3 sec in consideration of modern communication methods, and accordingly, may output a large amount of data as a signal sound within a short time by converting a signal through the QFSK method. The inventors have recognized that 5 modern devices, such as smartphones, have a noise cancelling function which may negatively affect signals in accordance with the present disclosure. There is provided an improved method using QFSK. FIG. 6 is a view illustrating a packet in an application layer and a frame in a physical layer corresponding thereto in a home appliance according to an embodiment . 10 FIG. 7 is a flowchart illustrating a signal converting process in a home appliance diagnosis system. FIG. 8 is a view illustrating a configuration of a frame generated through a signal converting process in the home appliance diagnosis system of FIG. 7. Referring to FIG. 6, in relation to a home appliance according to an embodiment, one packet in an application layer including diagnosis data may 15 correspond to one frame in a physical layer. That is, data may not be divided into a plurality of frames for transmission, and one frame may include the output start to output end of a signal sound. Typically, a packet may be divided into several frames and a signal sound may be outputted through a method of putting an Inter Frame Space (IFS) between frames. 20 However, such a method may need to detect a preamble (that is, a pattern signal 13 representing the start of each frame) when a signal sound is received and processed, and even if a signal sound is accurately outputted within a predetermined symbol time according to a communication environment, a delay may occur at the reception side that receives the signal sound. In this case, accuracy in detecting a preamble is deteriorated. 5 In a home appliance according to an embodiment, since an entire signal sound is outputted completely in one frame, a single preamble search may be enough. Therefore, the typical limitations may be resolved. Referring to FIG. 7, a home appliance according to an embodiment may generate a frame including a plurality of symbols through encoding and interleaving 10 processes by using the transmission information, and during the processes, symbols corresponding to a Frame Check Sequence (FCS), a Tail symbol and a preamble may be added. In more detail, the controller 170 or Micom may add the FCS on diagnosis data. The FCS may be added data for performing an error detection process (for example, a 15 CRC-8 method) in order to identify whether a frame is correctly transmitted. Then, the controller 170 may encode the diagnosis data having the FCS added. Such an encoding method may vary, and thus, may include a 1/2 Convolution Encoding method, for example. Especially, the 1/2 Convolution Encoding method may be used in a forward error correction (FEC) method for recovering a symbol error, and in order to 20 restore a bit error, may use a convolutional code through the FEC method. 14 The encoding may be based on a 1/2 code rate (i.e. one bit is inputted and two bits are outputted). At this point, since the 1/2 code rate requires a lot of redundant bits, a puncturing algorithm may be used in order to reduce the number of redundant bits. Additionally, the tail symbol may be an additional symbol generated during a 5 convolutional encoding process. The interleaving may be a technique for mixing the order of symbols and transmitting them, which is used when continuous errors occur during signal sound transmission. The interleaving process may interleave the sections of the payload (refer to FIG. 8) corresponding to diagnosis data and the tail symbol. 10 Moreover, the signal sound outputted according to the configured frame through the home appliance may be transmitted to the management device 290 through the input from the external terminal 230 and a communication network. Then, the management device 290 may detect the preamble according to a pre-agreed protocol, and may obtain the diagnosis data (i.e. payload) through deinterleaving, tail symbol 15 detecting, decoding, and FCS detection processes. Especially, the decoding may use a Viterbi decoding algorithm, which is easily executed on PC-based software, and such an algorithm may be advantageous to reduce errors in a way of selecting bit patterns having less error from all expectable bit patterns. Referring to FIG. 8, a total length of a signal sound, which is outputted from an 20 appliance according to an embodiment, does not exceed 3 sec. The frame according to 15 an embodiment may include a preamble having 8 symbols, a payload having 48 symbols (this correspond to 6 bytes of data in an application layer), an FCS having 8 symbols, and a tail symbol having two symbols. Accordingly, the symbol time may be configured to not to exceed 45 ms. The inventors have found that when the symbol time 5 is set too short, an echo effect between carrier frequencies outputted in correspondence to each symbol causes signal interference. Therefore, in theory, the symbol time should be set as long as possible. However, in order to provide the above frame and output a signal sound within 3 sec completely, the inventors have found that, advantageously, the symbol time may be between 40 ms and 45 ms. In the case of 45 ms, 10 since a total output length of a signal sound is 2.98 sec (which is extremely close to 3 sec), noise reduction function may be applied due to delay during signal processing according to the external terminal 230. Therefore, a symbol time of 44 ms may be considered. In this case, all signal sounds are completely outputted within 2.90 sec, and approximately 100 % of a communication success rate may be confirmed with almost 15 all terminals. Although the preferred embodiments have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the disclosure as disclosed in the accompanying claims. 16 Throughout this specification and the claims which follow, unless the context requires otherwise, the word "comprise", and variations such as "comprises" or "comprising", will be understood to imply the inclusion of a stated integer or step or group of integers or steps but not the exclusion of any other integer or step or group of 5 integers or steps. 17

权利要求:
Claims (25)
[1] 1. A home appliance comprising: a selection unit for receiving a diagnosis command on the home appliance from a user; 5 a memory for storing diagnosis data on the home appliance; a controller for processing the diagnosis data stored in the memory in order to generate a packet according to a diagnosis command input through the selection unit; a conversion unit for generating a frame including a combination of symbols, which respectively correspond to four different carrier frequencies, on the basis of data 10 constituting the packet, according to a Quadrature Frequency Shift Keying (QFSK) method.
[2] 2. The home appliance of claim 1, wherein the four different carrier frequencies have values of less than 2 kHz. 15
[3] 3. The home appliance of claim 1, wherein a symbol time, which is an output length of one carrier frequency outputted in correspondence to each symbol, is between 40 ms and 45 ms. 20
[4] 4. The home appliance of claim 1, wherein a total output time of a signal 18 sound corresponding to the frame does not exceed 3 sec.
[5] 5. The home appliance of claim 1, wherein the conversion unit creates one frame in correspondence to the packet. 5
[6] 6. The home appliance of claim 5, wherein the frame comprises a continuous combination of symbols.
[7] 7. The home appliance of claim 1, wherein the controller performs a 1/2 10 code rate based encoding on the basis of the diagnosis data.
[8] 8. The home appliance of claim 7, wherein the controller adds a Frame Check Sequence (FCS) on the diagnosis data, and based on this, performs the encoding process. 15
[9] 9. The home appliance of claim 7, wherein the packet comprises data generated additionally during the encoding process.
[10] 10. The home appliance of claim 9, wherein the controller performs an 20 interleaving process, including the added data. 19
[11] 11. The home appliance of claim 10, wherein the frame comprises a preamble added on symbols corresponding to the interleaved data. 5
[12] 12. The home appliance of claim 2, wherein the four different carrier frequencies constitute a scale.
[13] 13. The home appliance of claim 12, wherein the four different frequencies are based on 12 scales, and an interval between carrier frequencies has at 10 least one scale
[14] 14. The home appliance of claim 12, wherein the lowest one of the four different frequencies has a value of more than 1.3 kHz.
[15] 15 15. The home appliance of claim 1, wherein the controller generates the diagnosis data by running a predetermined diagnosis algorithm to perform a diagnosis on the home appliance.
[16] 16. The home appliance of claim 1, further comprising a storage unit for 20 storing the diagnosis algorithm. 20
[17] 17. A method of outputting a signal sound for diagnosing a home appliance, the method comprising: generating a frame, which includes a combination of symbols respectively 5 corresponding to four carrier frequencies, on the basis of bits constituting diagnosis data of the home appliance through a QFSK signal modulation; and outputting the carrier frequencies according to the symbols constituting the frame. 10
[18] 18. The method of claim 17, wherein the generating of the frame comprises: adding a FCS on diagnosis data; encoding data having the FCS added; adding a tail symbol that is additionally generated during the encoding process; 15 and adding a preamble of a specific pattern for notifying a start of the frame.
[19] 19. The method of claim 18, further comprising performing an interleaving process between the adding of the tail symbol and the adding of the 20 preamble. 21
[20] 20. The method of claim 19, wherein the encoding of the data is based on a 1/2 code rate. 5
[21] 21. The method of claim 20, wherein the frame comprises a preamble including 8 symbols, a payload having 48 symbols corresponding to the diagnosis data, an FSC including 8 symbols, and a tail symbol including 2 symbols.
[22] 22. The method of claim 18, wherein an output length of a carrier 10 frequency outputted in correspondence to one symbol is between 40 ms and 45 ms.
[23] 23. The method of claim 22, wherein the generating of the frame comprises generating a frame including a continuous combination of symbols. 15
[24] 24. The method of claim 18, wherein the four different carrier frequencies have values of less than 2 kHz;
[25] 25. The method of claim 24, wherein the four different carrier frequencies constitute a scale. 22

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法律状态:
2015-10-29| SREP| Specification republished|

2016-01-28| FGA| Letters patent sealed or granted (standard patent)|

优先权:

申请号 | 申请日 | 专利标题

KR10-2012-0072381||2012-07-03||

KR1020120072381A|KR101942781B1|2012-07-03|2012-07-03|Home appliance and method of outputting audible signal for diagnosis|

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