• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a method and a system for determining desired settings for a device. The method comprises at least the following steps: - a code (8) is generated from the desired settings and an image is generated which comprises the said code (8); - the generated image is displayed on a camera (1); - the desired settings of the device are identified by the software of the camera (1) from the code (8); - the settings identified with the camera (1) software from the code (8) are installed with the camera (1) software as the settings for the device, the device modifying its own function according to the settings in the code (8).
    公开号:FI20207057A1
    申请号:FI20207057
    申请日:2020-04-03
    公开日:2021-08-13
    发明作者:Antero Lehtonen
    申请人:Doop Oy;
    IPC主号:
    专利说明:

    Configure device settings as desired
    TECHNICAL FIELD OF THE INVENTION The invention relates to a method and a system for determining the settings of a device as desired, as set out in the preambles of the independent claims set out below. The invention relates, for example, to a new way of determining the settings required for a surveillance camera.
    BACKGROUND OF THE INVENTION Digital camera settings are handled, for example, when the camera is turned on, after a failure, or when the network connection used by the camera changes. Settings can sometimes be entered through the user interface connected to the camera. An application provided by the camera manufacturer that is connected to the camera software via a network connection is often used.
    Using the camera often requires complex authentication, sending network keys, phone numbers, and various messages. Sometimes connections to multiple servers are required to secure permissions and access the camera interface.
    It is not always possible to connect the camera to a network. For example, when you install a new camera, it often does not have network settings ready. For example, the desired o wireless network may not be available just when the new settings should be entered. Sometimes the camera is in such an awkward location that it is not even possible for the S 25 to have a cable connection to it, let alone that its physical interface could be accessed by 3. j 3 Other devices are often connected to the camera, or the camera is connected to other devices = which are difficult to set up. S 30 There are many settings that can be entered. Recording them is often laborious and error prone.
    There are fewer cameras or other devices in use than would be possible because the desired settings have not been reached, bothered, or entered.
    OBJECT OF THE INVENTION The object of the present invention is to reduce or even eliminate the above-mentioned problems occurring in the prior art. It is an object of the present invention to provide a solution which makes entering settings into a device such as a camera easy, fast, reliable, inexpensive, safe and even fun. It is an object of the present invention to provide a more efficient way of feeding even large amounts of settings to a camera or other device.
    It is an object of the present invention to enhance the installation and repair of the camera and to increase the operating time of the camera.
    BRIEF DESCRIPTION OF THE INVENTION In order to achieve the above-mentioned objects, the method, system and other objects of the invention are characterized by what is set forth in the appended independent claims.
    O R The application examples and advantages mentioned in this text apply, mutatis mutandis, S 25 to the method, system and other objects of the invention, S although it is not always mentioned separately. j 3 One way of describing the method and system according to the invention is to say that in order to determine the settings of a particular = device, an image is formed comprising a code which O 30 - comprises the desired device settings. The code is displayed to the camera, whose software first extracts the desired settings from the code and then installs the settings on the device.
    Another way of describing the invention is to say that according to the invention - a code is formed from the desired settings and an image comprising said code is formed; - displaying the formed image to the camera; - identifying the desired device settings from the code using the camera software; - install the settings identified by the code using the camera software as the device settings, in which case the device changes its own operation according to the settings contained in the code.
    A method according to the invention for determining the desired settings of a device comprises at least the following steps: - generating a code, for example a QR code, from the desired settings of the device, - generating an image comprising said code; - arranging the camera in a code description mode, where it can record an image in which information for the camera is encoded, e.g. OR codes; - displaying the formed image to the camera; - recognizing by means of the camera software that the camera describes a code with information intended for it; - storing the code information and identifying it with the camera software using the desired device settings; - using the camera software to install the settings identified in the code as the settings of the device N, in which case the device changes its own operation according to the 5 settings contained in the code.
    e 25 - A system according to the invention for determining the settings of a device as desired E comprises a camera comprising an electronic memory and software 5 for running therein, by means of which program code elements the S-camera can be arranged in a code description mode information;
    - the camera can recognize that it is describing a code with information for the camera; - the code information can be stored and the desired settings of the device can be identified; - the settings identified by the code can be installed as device settings, to change the operation of the device according to the settings contained in the code. To enter the settings, the camera is set manually or automatically to the code recognition mode, that is, the mode where the camera can record, recognize, and receive a code or codes. For example, the camera may be set to recognize a special key code from its image, even if the camera is not in recognition mode, after which it may set itself to code recognition mode, i.e., ready to receive new settings. The code recognition mode is not necessarily a special mode, but in one application the camera is ready to receive codes even in normal operation. The camera software has the necessary information to interpret the various codes. The generation and interpretation of various codes is known per se and will not be discussed in more detail here. The code can be any form of data readable by the camera, such as a barcode or a two-dimensional pattern code, such as an OR code, handwritten or typed text or other text, an image, character, or string, graphic object, colored object, color, expression, gesture, or another graphic element or other object recognized by the camera that includes camera settings. S Camera refers to any camera to which settings can be made N digitally. The camera can be, for example, a video camera or a still camera. The camera may be S 25, for example, a surveillance camera on the street or in commercial premises such as a shop, a game camera, S a camera for monitoring customer flows, a factory camera, an outward camera in vehicle E such as a traffic sign camera, a computer, 5 mobile phone or other terminal camera.
    S S 30 The camera comprises the camera part itself and a computer. The camera part may comprise, for example, optics and a photosensitive cell for converting the image to digital form. The computer and its software are used to store and process the image and possibly interpret and edit it. The camera portion of the camera and the computer may be on the same physical device. They can be located on different devices. They can be located close to or far apart. The camera part and the computer can be connected to each other via a wireless or wired connection. There may be several computers, some computers may be attached to the camera, some separate. There can be several cameras connected to the same computer or to different computers. Several computers and / or camera (s) can be connected to each other, for example via a data network.
    Certain parts of the invention are typically performed, at least in part, programmatically, for example by means of computers and communication devices between them. A computer typically comprises an electronic memory and program code for execution therein arranged to perform the necessary functions. Communication devices may include, for example, transmitters, receivers, wires, devices required by the data network, and program codes for using them. The components that may be required by the invention, such as computers, processors, memories, software, databases, display devices, sensors, radio transmitters and receivers, and the operation of the components, such as data transmission, are known per se and will not be described in more detail here.
    The device whose settings are set by means of the invention may be, for example, a camera used in the invention. The device may be a server connected to the camera, for example a server used to manage the camera system. The device may be another device connected to the camera, such as a printer, network recorder, customer flow counter, information display or other N display device, a medical device such as a ventilator or defibrillator, a robotic arm or a device controlling the S 25 conveyor belt. The device can be one that is inaccessible or whose S operation must be able to be changed quickly, such as various emergency stop actuators.
    j 3 Possible applications of the invention include e.g. the following setting changes are made with the = code displayed on the camera: O 30 - A printer connected to the camera can be set to transfer printouts from a specific client to that printer. The printer software can be instructed to modify the output to suit the user's preferences, for example, the desired stapling, punching, duplexing can be set. - For example, user IDs, network settings, recording start time and end time can be changed in the network recorder settings.
    - The client flow counter - can be = controlled = for example - by setting its network settings, defining the directions to be read from the client stream and the properties of the objects to be identified from the client stream, such as the minimum and maximum lengths of people.
    - The emergency stop function of the desired device can be activated. This causes the desired device to stop even if the normal stop or power switch cannot be accessed. EII A particular device or apparatus may be stopped by displaying to the camera a particular code, such as an image of a particular color or pattern, such as a normally hidden card or a gesture to be made. - An elevator can be programmed to travel to a specific floor without touching its normal buttons by displaying a certain code to the camera, such as an image of a certain color or pattern, or a hand gesture. Thus, the invention, or part thereof, can be said to be configured by displaying a code, such as a QR code, on a device such as a camera. The camera software identifies the settings from the code and installs them or participates in their installation, for example by sending the settings forward. S One advantage of the invention is that N does not necessarily require any network connection or other connection from the camera or S25 to the camera to set up the camera or other device.
    S E: One advantage of the invention is that the settings of the camera or other device can be easily set without the user interface, only by displaying the code containing the settings to the camera. In one embodiment of the invention, the arrangement of the code description mode, the description and identification of the code, the storage of information, the identification and installation of the settings are performed without communication or connection with the camera and the server or some other computer.
    For example, user authentication to the system server or other similar data flow is not required when operating without a network connection.
    This allows you to set up the camera or other device in almost any situation, as long as the camera is powered on.
    In one embodiment of the invention, the camera is connected to a server via a network connection.
    The server can control the operation of the camera at least in part.
    In this case, the code described by the camera according to the invention can be used to set the settings of the server behind the network connection.
    For example, the settings that control camera operation.
    The camera software recognizes the settings of the server that contains the code it describes, and forwards these settings to the server over a network connection.
    In this case, the server installs the settings to themselves and change their operation and / or camera operation according to the new settings.
    This allows easy remote server programming.
    In one embodiment of the invention, said code comprises network settings of a wireless network.
    In one application, the code comprises an SSID (Service Set Identifier), i.e., the domain name of the wireless local area network.
    In one application, the code comprises a wireless network password.
    The code may include other network settings.
    The code simplifies and simplifies entering settings. o In one embodiment of the invention, after installing the network settings of the wireless network N, the camera connects to the server S 25 via the wireless network and the data network and starts its programmed operation.
    The programmed function can be S, for example, storing images or a video image on a web server, transmitting images E to a neural network for analysis, or streaming video to, for example, 3 control rooms of a camera system.
    Images or video captured by the camera can also be stored elsewhere, for example in a mass memory located in the camera, such as an S 30 memory card.
    In one embodiment of the invention, the camera is arranged in a code description mode when the camera software recognizes that the camera or other device needs settings.
    For example, the camera can be set to code capture mode when the camera is turned on for the first time or when the camera is disconnected from the network for a sufficient period of time. This way, the user entering the settings does not have to do anything about it, the camera is ready to receive the settings when it needs them.
    In one embodiment of the invention, a code is generated from the desired camera settings on paper, cardboard, fabric, or other printable or writable surface.
    The code can be generated, for example, by printing or handwriting or hand-drawing. In particular, small papers, cartons, or other small and thin materials are convenient to use. In this way, the user of the camera can carry several different codes or it is easy for him to carry the code in his pocket, for example.
    In one embodiment of the invention, a code is generated from the desired settings of the camera for an electronic display device, such as a television, an information display or a display of a terminal. Such a display device is easy to show to the camera. Such a display device can display as many different codes as possible.
    In one embodiment of the invention, the terminal and its display device are used to generate the code and / or display it to the camera. The terminal, such as a mobile station, may have a suitable application, or the terminal may use a web page to which the desired N settings of the camera or other device can be entered or selected. The application or web page of the terminal generates a code from the desired settings of the camera or other device S 25. The generated code is displayed on the screen of the terminal. Now the S user can display the code to the camera on his terminal. With the terminal, generating the code E and displaying it to the camera is very simple. The terminal can be 3, for example, a mobile station such as a mobile phone or tablet computer, or a laptop computer. = In one application, the display device of the terminal is another display device, O 30, for example, an information display or a television, which is in the field of view of the camera and on the screen of which the code can be displayed. For example, commercial spaces, such as store spaces, often have display devices that can be used to set camera settings.
    In one embodiment of the invention, the network settings of the wireless network, or at least some of the settings, or at least the SSID, or at least the SSID and the network password, are entered manually for the terminal application.
    This eliminates the need to send network information such as a password or other rights anywhere over a potentially insecure network.
    In one embodiment of the invention, the features provided by a terminal, such as a mobile station, are utilized, which or parts of which can be included in the code to be generated and thus transferred and saved as settings to the camera.
    In one embodiment of the invention, at least some of the desired settings of the camera are taken from the operating system or applications of the terminal.
    The settings can be made automatically or the user can choose which settings are included in the code according to the invention.
    In one embodiment of the invention, the camera is set to the location of the camera from the location information of the terminal.
    In one application, the camera is set to the shooting direction of the camera from the image taken by the terminal or from the position information of the terminal generated by the compass and / or position sensor built into the terminal.
    Even a modern terminal, such as a mobile station, has a wealth of useful information readily available that can be used to configure camera settings.
    In one embodiment of the invention, the desired camera settings are divided into two or more codes to be displayed to the camera, for example more OR codes or N multiple handwritten tags to be displayed to the camera or several graphic elements to be displayed to the S25 camera.
    This can be done, for example, if there is more information to be transmitted in S than can be accommodated in one code.
    In this way, less information enters the code E, so it is easier to read, for example, in bad weather or from a longer distance.
    S 30 In one embodiment of the invention, said two or more codes are displayed to the camera separately and / or at certain time intervals.
    In one application, the mobile phone application controls the display device so that said plurality of codes are displayed on the display device automatically, at appropriate intervals. Automation makes code display easier and more efficient. In one embodiment of the invention, the information contained in the code is divided into several codes when it is found that the camera software cannot interpret the desired settings from the code displayed to the camera. Thus, the system may first try to enter all the settings with fewer codes, for example with only one concise code with a lot of information. And if the camera doesn't get the code clear, for example after a certain number of attempts or within a certain amount of time, the system can divide the settings into more, easier-to-read codes. In one application, the terminal recognizes that the code has not been received because the camera has not made the network connection work. In this case, the code may include network settings. When the network connection is working, the camera can notify you of a successful code or codes reading in a message sent to the terminal via its network connection. Dividing the settings into several codes makes it possible to enter even a large amount of data easily and without errors. In one embodiment of the invention, information about the state of the camera is sent from the camera software via a data network to a terminal application, which presents operating instructions according to the state of the camera to the user of the terminal in the display device of the terminal. For example, the instructions may prompt the user to move closer to the camera or illuminate the code brighter or enter the next code. This makes it even easier to enter the code.
    S N In one embodiment of the invention, the terminal application uses the terminal's own S25 camera to identify the location of the camera being programmed and provides S instructions for positioning the terminal in front of the camera at a suitable location for optimal display of code E to the camera. For example, the terminal software may 3 take into account the position of the camera in the image taken by the terminal camera and calculate = the optimal position of the code based on it. This facilitates the successful display of the code S 30.
    In one embodiment of the invention, the code to be generated is encrypted with encryption that can be decrypted by the camera software. This prevents the camera settings from being easily changed by outsiders.
    BRIEF DESCRIPTION OF THE DRAWINGS The invention will now be described in more detail with reference to the accompanying schematic drawing, in which Figure 1 - shows the operation of a system according to the invention; Figure 2 - shows a code according to the invention in a mobile station and its display device; Fig. 3 - shows the location and position of the mobile station on a map base; Figure 4 - shows a flow chart of a method according to the invention; Figure 5 - shows various graphic elements; Figure 6 - shows a code according to another invention; Figure 7 - shows a code according to a third invention; and Figure 8 - shows a fourth code according to the invention.
    DETAILED DESCRIPTION OF EXAMPLES OF THE FIGURES For some clarity, the same reference numerals are used in different figures and embodiments for some corresponding parts.
    Figure 1 shows a camera 1 which has just been installed by the user 2 as a surveillance camera for a shop selling containers 3. Camera 1 is plugged in and turned on for the first time. The store has a wireless router 5 connected to the Internet 4 via the network connection 15, but the camera 1 does not have the wireless network 6 S 25 information. Therefore, the camera 1 cannot access the network without installing them.
    S E The figure does not show a possible server to which the camera 1 can be connected, for example s via the Internet 4 or a cable such as a USB cable. Cameras such as = surveillance camera 1 are typically controlled by a server O 30 behind the network connection. For example, the camera may send the data it captures to a server, and some server settings may control the operation of the camera.
    In order for the camera 1 to connect to the wireless network 6, and thereby to the server controlling it, for example, the camera 1 usually needs at least the network SSID and the network password in its settings.
    The camera user 2 opens an application on his mobile station 7, into which he enters the necessary wireless network information.
    The application encodes the settings into OR code 8. Code 8 is displayed on the screen of the mobile station 9. When camera 1 is switched on, the so-called to a code entry mode where it can describe, recognize and receive code 8 or codes.
    The user 2 displays the code 8 to the camera 1 by placing his mobile station / camera 1 in the field of view 13 and pointing the display 9 of the mobile station towards the camera 1. The software of the camera 1 contains information for interpreting the code 8.
    In this way, the camera uses its software to identify its settings from code 8 and configure itself.
    The store has a display device 14. If it is in the field of view of a camera 13, it could be used. to set the camera settings.
    If the desired code 8 according to the invention is displayed on the display device 14, all cameras describing it could be programmed at the same time.
    Figure 3 shows the location of the mobile station 7 on a map template 10 displayed in its application. The location can be taken automatically from the data of the mobile station, for example at the moment when the OR code is generated.
    The compass arrow 11 indicates the presumed shooting direction of the camera 1.
    The position and orientation of camera 1 may be the camera settings contained in code 8o.
    If user 2 in the mobile station application N allows location, it is known where the mobile station 7 is.
    If the user 2 is at the camera 1 when using the application S25, it is also known where the camera 1 is physically located.
    S It is also possible that the user 2 himself selects the location of the camera 1 from the map 10 of the application E. It is possible that the application detects the position of the mobile station 7 and 3 infers from it the direction 11 in which the camera 1 points.
    In this case, if the user 2 turns = his mobile station 7 to point in the shooting direction of the camera 1, it is known in which direction O 30 the camera 1 is directed.
    According to the location and direction of the camera 1, the application of the mobile station 7 can encode it into the code 8, the settings to be displayed to the camera 1.
    The location and / or direction can be taken separately from the data of the mobile station manually or, for example, automatically at the same time as the user selects the code 8 to be generated.
    Figure 4 shows a flow chart of a method according to the invention, in which the user 2 of the invention aims to set the network settings of the wireless network 6 in his newly installed camera 1. In step 41 the user 2 opens an application network settings, i.e. the SSID, i.e. the domain of the wireless LAN 6, and the password of the wireless network 6. In step 43, the user 2 moves in the vicinity of the camera 1 and allows / locates in his terminal or retrieves his location, i.e. the location of the camera 1, from the map base displayed in the application. The application saves the location. In step 44, the user 2 holds the terminal / in his hand horizontally. The application displays an arrow 9 on the screen of the terminal, which the user rotates parallel to the shooting direction of the camera 1. The application records the shooting direction of the camera 1. In step 45, the user 2 accepts and / or saves any further settings in the application. In step 46, the user 2 commands the application to generate one or more codes 8 according to the invention from the stored settings. The software of the camera 1 reports the successful reading of the code 8 to the software of the terminal 7. If the code 8 was read successfully, in step 49 the camera o 1 software changes the camera settings according to what it read from the code. If the software of the N cameras 1 did not find out the code in step 48, a correction operation is performed in step S2550, for example, the code 8 can be divided into several more readable S codes. Then, return to step 47, where the application E displays the fragmented or otherwise clarified code 8 on the screen 3 of the terminal 7 9 and the user 2 displays the code 8 on the camera 1. S 30 If the camera 1 has not established a network connection, it cannot send information about the successful from which the software of the terminal 7 can conclude that the settings have not been received. The correction function of step 50 may be, for example, as follows: The terminal / software displays code 8 until a successful code number is received from the camera 1 or until a timeout, i.e. a certain timeout, is reached. If this code number timeout is smoked, the software concludes that the code 8 read failed and divides the code 8 into smaller parts or otherwise makes it easier to read. For example, the display 9 of the terminal may be set brighter or the user 2 may be instructed, for example, on the better location of the terminal 7. The software will continue to try and make code 8 easier to read until it receives a response from camera 1 or until a certain timeout for the entire operation is reached, at which point user 2 will be notified that code 8 cannot now be entered. Figure 5 shows four exemplary graphic forms 12 that could be used as codes or parts of a code according to the invention. The software of the camera 1 defines what each shape 12 means, for example, the white octagon, black square, white triangle and white circle shown in the figure. For example, one of the shapes 12 may mean that the then function of the camera 1, such as stopping the recording, can be set to another by another. Figures 6, 7 and 8 show a few possible code types. In Figure 6, code 8 is a QR code, in Figure 7 a handwritten message, in Figure 8 a combination of four graphic forms 12. o The invention is not intended to be limited to the examples shown, but the scope of protection N is determined by the independent claims. The dependent claims present S 25 some preferred embodiments of the invention. S
    I Ao a Nn LO O OF O OF O OF
    权利要求:
    Claims (24)
    [1]
    A method for determining desired settings for a device, which method comprises at least the following steps: - a code (8) is generated from the desired settings in an application of a terminal (7) and an image is generated which comprises said code (8 ); A single camera (1) is arranged in code recording mode in which it can record an image in which information intended for the camera is coded; - the generated image is displayed to the camera (1) on the terminal (7) screen (9); - it is identified by means of the camera's (1) software that the camera records a code (8) with information intended for it; - the information in the code (8) is saved and the desired settings for the device are identified; - the settings identified in the code (8) are installed with the software of the camera (1) as the settings of the device, whereby the device changes its own function according to the settings in the code (8); characterized for - one or more of the following are taken as the desired settings: o the position of the camera (1) from the position information of the terminal (7) or as selected by the user (2) from the map (10) in an application; o camera (1) the shooting direction (11) from an image taken; the terminal (7) or from a compass or position sensor built into the N terminal (7). & E 25
    [2]
    Method according to claim 1, characterized in that> - the position of the camera (1) and / or the shooting direction (11) of the camera (1) is taken as the desired setting when the code (8) is generated. S
    [3]
    Method according to claim 1 or 2, characterized in that the device is said N camera (1) or a server connected to it, wherein
    - the settings identified in the code (8) are installed as settings for the camera (1) or the server connected with.
    [4]
    Method according to claim 3, characterized in that the device is said camera (1), wherein - the settings identified in the code (8) are installed as settings for the camera (1).
    [5]
    Method according to any one of the present claims, characterized in that the said arranging of the camera (1) in code recording mode, the recording and identification of the code, the saving of the information, the identification and installation of the settings - is performed without creating a connection (6, 15) between the camera (1) and a server or other computer.
    [6]
    Method according to claim 3, characterized in that the camera (1) is connected to a network connection (15) to a server, wherein - it is identified by means of the camera software (1) that the camera records a code (8) with information intended for the server; The information intended for the server is sent to the server via the said network connection (15); . - the settings of the server are changed on the basis of the mentioned information. and N
    [7]
    Method according to any one of the present claims, characterized in that said code (8) contains network settings for a wireless network (6). z E
    [8]
    Method according to claim 7, characterized in that after the installation of the network settings for a wireless network (6) the camera connects to a server via S the wireless network (6) and a data network (4, 15) and starts one or more of N 30 the following functions: - video is recorded on a web server;
    - images are transferred to a neural network for analysis; - video is streamed to a control room, for example.
    [9]
    Method according to any one of the present claims, characterized in that - the camera (1) is arranged in code recording mode when the camera software (1) identifies that the camera (1) or other device needs settings, for example when the camera (1) is started or when the camera's network connection (15) is lost or when the camera (1) has another specific fault condition.
    [10]
    Method according to any one of the present claims, characterized in that - the code (8) is generated from the desired settings on a monitor.
    [11]
    Method according to any one of the present claims, characterized in that - the desired network settings for a wireless network (6) are given manually to the application of the terminal (7).
    [12]
    Method according to one of the preceding claims, characterized in that - at least a part of the desired settings is taken automatically from the operating system or applications of the terminal (7).
    [13]
    Method according to any one of the present claims, characterized in that; - the desired settings are divided into two or more codes to be displayed to the S camera (8). E 25
    [14]
    Method according to claim 13, characterized in that> - the said two or more codes are displayed to the camera (8) separately and / or at E certain intervals. 5 S
    [15]
    Method according to claim 13 or 14, characterized in that N 30 - said two or more codes are displayed to the camera (8) automatically and controlled by the application of the terminal (7).
    [16]
    Method according to any one of the present claims 13-15, characterized in that - when it is noted that the camera software (1) can not interpret the desired settings from the code (8) shown to the camera (1), the information is divided into code (8 ) in several codes (8) and the mentioned several codes (8) are displayed for the camera (1).
    [17]
    Method according to any one of the present claims, characterized in that - the information about the condition of the camera (1) is sent from the software of the camera (1) via a data network (4, 15) to the application of the terminal (7), which shows on the terminal screen ( 9) instructions in accordance with the condition of the camera (1) to the user of the terminal (2).
    [18]
    Method according to any one of the present claims, characterized in that - the application of the terminal (7) uses the camera of the terminal (7) to identify the position of the camera (1) programmed in the image taken by the camera of the terminal (7), calculates the code optimal location due to it, and provides instructions for positioning the terminal (7) in front of the camera (1) in a suitable position for the optimal display of the code (8) to the camera (1).
    [19]
    Method according to any one of the present claims, characterized in that, - the code (8) to be generated is encrypted with encryption which the software of the camera (1) N can decrypt at least in part.
    N S 25
    [20]
    A system for determining the desired settings of a device, the system comprising a camera (1) comprising an electronic memory, and a software E to be run on it, consisting of program code elements enabling the camera (1) to be arranged in code recording mode, the program code elements being S arranged to perform the following functions: the N 30 camera (1) records an image in which information intended for the camera is coded;
    The camera (1) identifies that it is recording a code (8) with information intended for it; - the information in the code (8) is saved and the desired settings for the device can be identified from the code; - the settings identified in the code (8) are installed with the software of the camera (1) as the settings of the device, for the device to change its own function according to the settings in the code (8); the system therefor comprising a terminal (7), which comprises an electronic memory, and a software to be run on it, consisting of program code elements which enable - a code (8) to be generated from the desired settings in an application of the terminal ( 7), and the generated code is displayed on the screen (9) of the terminal (7); characterized in that the program code elements are arranged to perform the following functions: - one or more of the following are taken as the desired settings: o the position of the camera (1) from the position information of the terminal (7) or as selected by the user (2) from the map (10) in an application; o camera (1) the shooting direction (11) from an image taken by the terminal (7) or from a compass or position sensor built into the terminal (7). .
    [21]
    System according to claim 20, characterized in that the program code elements are arranged N to perform the following functions. . z E
    [22]
    System according to claim 20 or 21, characterized in that the software 5 of the terminal (7) comprises program code elements with which the desired settings of the S-camera (1) are divided into two or more codes to be displayed to the N-camera (8).
    [23]
    System according to any one of the present claims 20-22, characterized in that the software of the terminal (7) comprises program code elements with which - the application of the terminal (7) uses the camera of the terminal (7) to identify the position of the camera (1) being programmed in the image taken by the camera of the terminal (7), calculates the optimal location of the code because of it, and gives instructions for positioning the terminal (7) in front of the camera (1) in a suitable position for the optimal display of the code (8) to the camera (1) .
    N
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    LÖ <Q
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    N
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    同族专利:
    公开号 | 公开日
    FI129144B|2021-08-13|
    EP3896956A4|2021-10-20|
    EP3896956A1|2021-10-20|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US20110234829A1|2009-10-06|2011-09-29|Nikhil Gagvani|Methods, systems and apparatus to configure an imaging device|
    EP3096290B1|2015-05-19|2018-07-18|Axis AB|Method and system for determining camera pose|
    US10475315B2|2016-03-22|2019-11-12|Sensormatic Electronics, LLC|System and method for configuring surveillance cameras using mobile computing devices|
    法律状态:
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    优先权:
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    FI20207057A|FI129144B|2020-04-03|2020-04-03|Specifying desired device settings|FI20207057A| FI129144B|2020-04-03|2020-04-03|Specifying desired device settings|
    EP21167077.3A| EP3896956A1|2020-04-03|2021-04-06|Configuring device settings|
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