JP2022062488A - Sensor evaluation board, evaluation support system, and information collection method - Google Patents

Abstract

To provide a support technique that allows efficient operation evaluation by combining various types of sensors in a plurality of ways and can develop a new utilization method using the sensors.SOLUTION: A sensor evaluation board (10) can be connected with an evaluation kit (20) for evaluating the characteristics of a sensor, and comprises: one or more sensor devices (12) that detect different physical quantities; a peripheral circuit for actuating the one or more sensor devices (12); a connector (13) that allows input and output of signals with an external sensor that can be combined with the one or more sensor devices (12) and detects the other physical quantity; and a connection interface (14) that allows input and output, with respect to the evaluation kit (20), signals indicating the physical quantities detected by using the one or more sensor devices (12) and control signals related to control of the one or more sensor devices (12).SELECTED DRAWING: Figure 1

Description

The present invention relates to a sensor evaluation board, an evaluation support system, and an information collection method that support sensor evaluation.

With the progress of ICT (Information and Communication Technology) in recent years, IoT (Internet of Things) that collects various information from articles with communication functions and provides various services based on the collected information. Is becoming popular. In IoT, for example, various sensors for collecting various kinds of information are provided on an article. For example, by providing a sensor that detects temperature, humidity, atmospheric pressure, illuminance, noise, etc., the environmental state in which the article exists can be collected as information. Further, when a sensor for detecting impact, vibration, tilt, tipping, falling, movement, etc. is provided, the operating state of the article can be collected as information. In addition, by providing a proximity sensor, a motion sensor, an open / close sensor, and the like, it becomes possible to collect information such as the position of the article and the entry / exit of a person into and out of the room where the article is attached. Based on the collected information, it becomes possible to provide various services corresponding to information such as the environmental state in which the article exists, the operating state, and the detection state. The following patent documents exist as prior art documents that describe the techniques related to the techniques described in the present specification.

Japanese Unexamined Patent Publication No. 2013-80332

By the way, in the case of providing the IoT service as described above, various sensors for detecting different physical quantities and state quantities may be combined in a plurality of combinations in order to collect the target information. A provider of IoT services, for example, purchases a sensor device to be used, designs and manufactures a prototype board on which a peripheral circuit for operating the device is mounted, and determines the usage environment and usage condition of the article. Operation evaluation that imitates and development of application software using detected physical quantities are performed. However, even sensors that detect the same physical quantity may have different characteristics depending on the manufacturer, or the control interface for controlling the sensor may be different. In addition, the desired sensor performance may not be obtained. Generally, the development period is limited. For this reason, developers and providers who provide IoT services have desired a mechanism capable of efficiently evaluating the operation of various sensors.

The present invention has been made in view of the above circumstances, and an object thereof is to enable efficient operation evaluation by combining a plurality of various sensors and to develop a new usage method using the sensors. To provide possible assistive technologies.

The sensor evaluation board according to one aspect of the present invention for solving the above problems is
A sensor evaluation board that can be connected to an evaluation kit that evaluates sensor characteristics.
With one or more sensor devices that detect different physical quantities,
Peripheral circuits for operating one or more sensor devices,
A connector that can be combined with one or more sensor devices and that can input and output signals to and from an external sensor that detects other physical quantities.
A connection interface for inputting / outputting a signal indicating a physical quantity detected by using the one or more sensor devices and a control signal related to control to the one or more sensor devices to the evaluation kit.
It is characterized by having.

This makes it possible to evaluate the operation of the sensor 12 that detects one or more different physical quantities through the sensor evaluation board 10. Various environmental sensors mounted on the sensor evaluation board 10, for example, the operating range of the humidity sensor 12a, the illuminance sensor 12b, the pressure sensor 12c, the gas detection sensor 12d, the temperature sensor 12e, etc., and the detection characteristics can be evaluated.

Further, in one aspect of the present invention, a signal indicating a physical quantity detected by the one or more sensor devices and an external sensor connected to the connector through the connection interface, and a control signal relating to control to the external sensor. May be input / output to the evaluation kit. The physical quantities detected by various sensor devices connected through the expansion connector 13 which is a connector provided in the sensor evaluation board 10 and capable of mutual input / output with an external sensor for detecting other physical quantities can be relatively compared. .. For example, when the environment sensor included in the sensor 12 does not have the desired characteristics, the operating characteristics of other sensors that detect the same type of physical quantity through the expansion connector 13 can be compared. For example, when selecting a sensor to be installed in an article or the like, the IoT developer or the like can compare the operating characteristics of sensors from different manufacturers, and can select an appropriate sensor according to the purpose from among a plurality of sensors that detect the same physical quantity. It becomes possible to select.

Further, in one aspect of the present invention, the connector for a module to which a module controlled based on a physical quantity detected from the one or more sensor devices and an external sensor connected to the connector can be connected is further provided. Based on a status signal indicating the control status of the module connected to the connector for the module through the connection interface, and a physical quantity detected from one or more sensor devices and an external sensor connected to the connector. Control signals related to the control of the module may be input to and output from the evaluation kit.

This makes it possible to appropriately develop a target control application by combining sensors that detect one or more different physical quantities. For example, a plurality of different environmental information based on the environmental information detected by various environmental sensors (humidity sensor 12a, illuminance sensor 12b, pressure pressure sensor 12c, gas detection sensor 12d, temperature sensor 12e) mounted on the sensor evaluation board. It is possible to develop application software related to control modules such as control sequences that combine state quantities that indicate. Similarly, it becomes possible to develop a control application that combines various state quantities detected by an external sensor device connected through the expansion connector 13. Furthermore, it is possible to provide a control application implementation and development environment for control modules including controlled devices such as motors and cameras. When the sensor module connected to the module connector can be incorporated into an existing article, it is detected by the physical quantity detected by the sensor module and the external sensor device connected through the sensor device or the expansion connector. By combining multiple physical quantities, it is possible to develop new control applications.

In addition, other aspects of the present invention are
A terminal that can be connected to the sensor evaluation board related to the above aspect,
A server that provides predetermined information regarding the evaluation of sensor characteristics using the sensor evaluation board acquired through the terminal, and a server.
It is exemplified as an evaluation support system characterized by including.

As a result, it is possible to provide the terminal connected through the network N with contents related to operation evaluation and IoT development using various sensor devices. In this aspect, it is possible to construct a platform capable of sharing information related to IoT development, which enables efficient operation evaluation by combining a plurality of different physical quantities detected by various sensor devices.

Further, in one aspect of the present invention, the server may provide information regarding application development according to the sensor characteristics acquired through the sensor evaluation board. For example, algorithms related to application development can be provided. In addition, information on software creation using the control module can be provided. According to this aspect, the server can provide an evaluator connected through the network N with a platform capable of exchanging information to support the development of a new usage method using various sensors.

Further, another aspect of the present invention is
A computer connected to one or more terminals that can be connected to the sensor evaluation board according to the above aspect through a communication line
Collecting predetermined information regarding the evaluation of sensor characteristics using the sensor evaluation board acquired through the one or more terminals, and
Collecting information on application development according to the sensor characteristics and
Is exemplified as an information gathering method characterized by executing.

As a result, from one or more terminals connected to the communication network, the development of IoT is based on the predetermined information regarding the evaluation of the sensor characteristics using the sensor evaluation board 10 and the information regarding the algorithm development using the sensor evaluation board 10. It will be possible to collect information that indicates trends and technological trends.

INDUSTRIAL APPLICABILITY According to the present invention, it is possible to provide an assistive technique capable of efficiently evaluating an operation by combining a plurality of various sensors and developing a new usage method using the sensor.

It is a figure explaining the structure of the sensor evaluation board which concerns on Example 1 of this invention. It is a block diagram which shows the strategic structure of the evaluation support system in Example 2 of this invention. It is a figure which shows an example of the hardware configuration of the evaluation support server in Example 2 of this invention. It is a sequence diagram which shows the flow of the process in Example 2 of this invention.

[Application example]
Hereinafter, application examples of the present invention will be described with reference to the drawings.
FIG. 1 is a diagram illustrating a configuration of a sensor evaluation board (hereinafter, also simply referred to as “sensor evaluation board”) according to an application example of the present invention. FIG. 1 shows a form including a sensor evaluation board 10 in this application example and an evaluation kit 20 having an operation evaluation function using a plurality of types of control modules that detect different physical quantities and state quantities in cooperation with the board. Illustrated. The evaluation kit 20 is a general-purpose kit for developing an application such as an operating state of a sensor and a control sequence of a device controlled by using a physical quantity detected by the sensor. As such an evaluation kit 20, for example, a start kit by IoT such as Raspberry, Arduino, ESP32 can be exemplified.

The sensor evaluation board 10 according to this application example is a device for supporting operation evaluation of various sensors provided in an article having a communication function and development of application software using detected physical quantities. As shown in FIG. 1, the sensor evaluation board 10 in this embodiment is different from the environment sensor 11 for connecting to the evaluation kit 20 and the environment sensors (12a to 12e) for detecting different physical quantities. It is provided with expansion connectors (13a, 13b) for connecting other types of sensors. Further, the sensor evaluation board 10 includes a module interface unit (14a to 14c). The module interface section (14a to 14c) includes, for example, a sensor module assembled so as to be mounted in an article, and a device (camera, motor, switch, etc.) controlled according to a physical quantity detected through a sensor or the like. ) Etc. are connected to the control module. The module interface unit (14a to 14c) is provided with a connector that can be connected to the above-mentioned sensor module and control module. In the sensor evaluation board 10, a power supply for operating the environment sensors (12a to 12e) mounted on the board and peripheral circuits for connecting to other devices are provided on the board.

Here, the "interface unit 11" is an example of a "connection interface" with the evaluation kit 20, and the "expansion connector (13a, 13b)" is an "input / output of a signal with an external sensor that detects another physical quantity." This is an example of a "connector that can be used". Further, the "module interface unit (14a to 14c)" is an example of a "module connector". A power supply for operating the environment sensors (12a to 12e) mounted on the board and peripheral circuits for connecting to other devices are provided on the board.

Through the sensor evaluation board 10 in this application example, it is possible to evaluate the operation of a sensor that detects one or more different physical quantities. The operating range, detection characteristics, and the like of various environmental sensor devices mounted on the sensor evaluation board 10, such as humidity sensor 12a, illuminance sensor 12b, pressure pressure sensor 12c, gas detection sensor 12d, and temperature sensor 12e, can be evaluated. Further, the physical quantities detected by various sensor devices connected through the expansion connectors (13a, 13b) of the sensor evaluation board 10 can be relatively compared. For example, when the environment sensor mounted on the sensor evaluation board 10 does not have the desired characteristics, it becomes possible to compare the operating characteristics of other sensor devices from different manufacturers that detect the same type of physical quantity through the expansion connector 13. For example, when selecting a sensor device to be installed in an article or the like, an IoT developer or the like can compare the operating characteristics of sensors from different manufacturers, and can appropriately detect the same physical quantity from a plurality of sensor devices according to the purpose. It becomes possible to select a sensor device.

Further, through the sensor evaluation board 10, the evaluation kit 20 can appropriately develop a target control application by combining sensor devices that detect different physical quantities of one or more. For example, a plurality of different states are based on the environmental information detected by various environmental sensors (humidity sensor 12a, illuminance sensor 12b, pressure pressure sensor 12c, gas detection sensor 12d, temperature sensor 12e) mounted on the sensor evaluation board 10. It is possible to develop applications such as control sequences that combine quantities. In addition, it becomes possible to develop a control application that combines the state quantities detected by the external sensors connected through the expansion connectors (13a, 13b). Further, when a control module including a control target device such as a motor or a camera is connected to the module interface unit (14a to 14c), it is possible to provide an implementation or development environment of a control application for the module. Similarly, if the sensor module connected to the module interface section (14a to 14c) can be incorporated into an existing article, the physical quantity detected by the sensor module and the sensor device or expansion connector (13a, 13b) By combining with the physical quantity detected by the external sensor device connected through), it becomes possible to develop a new control application.

[Example 1]
Hereinafter, the evaluation board according to the embodiment of the present invention will be described in more detail with reference to the drawings.

<Device configuration>
FIG. 1 is a diagram illustrating a configuration of a sensor evaluation board according to an embodiment of the present invention. The sensor evaluation board 10 in this embodiment is used for operation evaluation of various sensor devices (hereinafter, also simply referred to as “sensors”) provided in an article or the like having a communication function, and application software (hereinafter, simply referred to as “sensor”) using detected physical quantities. , Simply referred to as an "app"). In FIG. 1, the sensor evaluation board 10 in this embodiment, a plurality of types of sensor modules that detect different physical quantities and state quantities in cooperation with the board, or a control module including a device to be controlled by the detection amounts of various sensors. An example is a perspective view of a form including an evaluation kit 20 having an operation evaluation function using the above. In the following description, the sensor evaluation board 10 according to the present embodiment will be described as a form in which the sensor evaluation board 10 is linked with the evaluation kit 20, but is in a form of being directly connected to a computer such as a PC (Personal Computer) provided by the user. It may be present, or it may be connected to a dedicated development kit manufactured by the user.

As shown in FIG. 1, the sensor evaluation board 10 in this embodiment is different from the environment sensor 11 for connecting to the evaluation kit 20 and the environment sensors (12a to 12e) for detecting different physical quantities. It is provided with expansion connectors (13a, 13b) for connecting other types of sensors. Further, the sensor evaluation board 10 includes a module interface unit (14a to 14c). The module interface section (14a to 14c) includes, for example, a sensor module assembled so as to be mounted in an article, and a device (camera, motor, switch, etc.) controlled according to a physical quantity detected through a sensor or the like. ) Etc. are connected to the control module. The module interface unit (14a to 14c) is provided with a connector that can be connected to the above-mentioned sensor module and control module. In the sensor evaluation board 10, a power supply for operating the environment sensors (12a to 12e) mounted on the board and peripheral circuits for connecting to other devices are provided on the board.

Note that FIG. 1 illustrates a form including five types of environment sensors (12a to 12e), two expansion connectors (13a and 13b), and three module interface units (14a to 14c). The types of sensors mounted on the sensor evaluation board 10 may be less than 5 types, or may be more than 5 types. The same applies to the quantity of expansion connectors and the quantity of module interfaces. Further, a part of the configuration shown in FIG. 1 may not be provided, or may include other configurations (for example, five types of environment sensors may be sensors for detecting the operating state of the article). good. Hereinafter, the sensors provided on the substrate (environmental sensors (12a to 12e) in the illustrated example) are collectively referred to as the sensor 12. Further, the expansion connectors (13a, 13b) are collectively referred to as "expansion connector 13", and the module interface units (14a to 14c) are collectively referred to as "module interface unit 14".

In the sensor evaluation board 10 of this embodiment, a plurality of sensors 12 for detecting different physical quantities are provided on the substrate. In FIG. 1, as an example of the sensor 12 for detecting such a different environment, a PCB (Polychlorinated Biphenyls) type humidity sensor 12a, an illuminance sensor 12b, a pressure sensor 12c, a gas detection sensor 12d, and a temperature sensor 12e are exemplified. .. Here, the gas detection sensor 12d is a VOC sensor that detects, for example, volatile organic compounds contained in alcohol, cigarette smoke, formaldehyde, and the like. In the sensor evaluation board 10, the humidity sensor 12a, the illuminance sensor 12b, the barometric pressure sensor 12c, and the gas detection sensor 12d are the ends facing the end provided with the interface portion 11 for connecting the sensor evaluation board 10 to the evaluation kit 20. It is provided on the part side. This is because the mounting positions of various sensors provided on the substrate do not interfere with the connection operation of the user when connecting to the evaluation kit 20. Further, the temperature sensor 12d is provided on an end portion side different from each end portion in which the various sensors (12b to 12d) and the interface portion 11 are provided. Avoid the influence of heat generation during operation of the various sensors (12b to 12d) and the influence of heat generation temperature of the control device (for example, processor of CPU, DSP, etc.) of the evaluation kit 20 connected to the sensor evaluation board 10. Because. On the substrate of the sensor evaluation board, peripheral circuits for operating the environment sensor are provided around the mounted sensor 12.

Signals indicating various physical quantities detected by the sensor 12 mounted on the sensor evaluation board 10 are output to the interface unit 11 connected through the peripheral circuit. Further, various control signals received from the evaluation kit 20 connected to the interface unit 11 are input to each sensor connected through the peripheral circuit. The sensor 12 mounted on the sensor evaluation board 10 outputs a signal indicating the detected physical quantity to the interface unit 11 according to a control command or a sampling signal input to each of the peripheral circuits.

Similarly, a signal indicating a physical quantity detected by an external sensor connected via the expansion connector 13 is output to the interface unit 11 through a pattern wired on the substrate or the like. For example, a physical quantity indicating the environment detected by an external UV sensor, noise sensor, acceleration sensor, or the like connected to the sensor evaluation board 10 via the expansion connector 13 is acquired via the connector. Further, the physical quantity connected via the expansion connector 13 by the sensor for detecting the operating state of the article such as impact, vibration, tilt, tipping, falling, and moving is acquired. Various control signals from the evaluation kit 20 received through the interface unit 11 are input to an external sensor connected via the expansion connector 13.

The same applies to various sensor modules connected through the module interface unit 14. For example, a signal indicating a physical quantity detected through the sensor module, a signal indicating the state of the device controlled through the sensor module, and the like are output to the interface unit 11 through a pattern wired on the substrate and the like. Further, various control signals from the evaluation kit 20 received through the interface unit 11 are output to various modules connected through the module interface unit 14.

The evaluation kit 20 is a general-purpose kit for developing an application such as an operating state of a sensor and a control sequence of a device controlled by using a physical quantity detected by the sensor. As such an evaluation kit 20, for example, a start kit by IoT such as Raspberry, Arduino, ESP32 can be exemplified. These major boards have a large number of users all over the world, and by being able to connect, it will be possible for many users to use them. The evaluation kit 20 includes, for example, a wired or wireless communication circuit, and is connected to a computer for application development and sensor operation evaluation through the communication circuit. Further, the evaluation kit 20 is provided with a processor (CPU, DSP, etc.) for executing commands to various sensors to be controlled and operation evaluation. Through the processor, control commands for various sensors connected via the sensor evaluation board 10 and operation commands for the controlled target device using the sensor amount are executed. The evaluation kit 20 is connected to the board through the interface unit 11 of the sensor evaluation board 10, and signals indicating physical quantities detected by various sensors 12 mounted on the board are acquired. Further, a signal indicating a physical quantity detected by a sensor provided on the external side connected to the expansion connector 13 is acquired. Further, the detection amount of the sensor module connected through the module interface unit 14, the state amount indicating the control state of the control module, and the like are acquired. Further, various sensors 12 and expansion connectors 1 mounted on the board through the interface portion 11 of the sensor evaluation board 10.
Various control commands for various modules connected through the external sensor connected through 3 and the module interface unit 14 are output.

Through the sensor evaluation board 10 in this embodiment, the evaluation kit 20 can evaluate the operation of the sensor 12 that detects one or more different physical quantities. Various environmental sensors mounted on the sensor evaluation board 10, for example, the humidity sensor 12a, the illuminance sensor 12b, the pressure sensor 12c, the gas detection sensor 12d, the temperature sensor 12e, the operating range, the detection characteristics, and the like can be evaluated. Further, it is possible to make a relative comparison between the physical quantity detected by various sensors of different manufacturers and the like connected through the expansion connector 13 of the sensor evaluation board 10 and the physical quantity detected by the sensor 12. For example, when the environment sensor included in the sensor 12 does not have the desired characteristics, the operating characteristics of other sensors that detect the same type of physical quantity can be compared through the expansion connector 13. For example, when selecting sensors to be installed in articles, IoT developers can compare the operating characteristics of sensors from different manufacturers, and can use them in a usage environment that suits their purpose from among multiple sensors that detect the same physical quantity. Appropriate suitable sensors can be selected.

Similarly, through the sensor evaluation board 10 in this embodiment, the evaluation kit 20 can appropriately develop a target control application by combining sensors 12 that detect one or more different physical quantities. For example, a plurality of state quantities based on environmental information detected by various environmental sensors (humidity sensor 12a, illuminance sensor 12b, pressure pressure sensor 12c, gas detection sensor 12d, temperature sensor 12e) mounted on the sensor evaluation board 10. It is possible to develop applications such as control sequences that combine these. Further, it becomes possible to develop a control application in a form in which the state quantities detected by the external sensor connected through the expansion connector 13 are appropriately combined. Further, when a control module including a control target device such as a motor or a camera is connected to the module interface unit 14, the module is targeted based on the detection amount by various sensors connected through the sensor 12 and the expansion connector 13. It is possible to provide a control application implementation and development environment. Similarly, when the sensor module connected to the module interface unit 14 can be incorporated into an existing article, the physical quantity detected by the sensor module and an external sensor connected through the sensor 12 or the expansion connector 13 are used. By combining with the detected physical quantity, it becomes possible to develop a new control application.

Further, although the area of the evaluation boat 10 is limited, the number of sensors can be increased in a string by mounting the expansion connector 13. As a result, a large number of sensor combinations can be tried, which is advantageous for the development of a specific application. Further, since the external sensor is connected to the expansion connector 13 through a cable, the sensor can be installed at any place. This makes it possible to carry out the evaluation near the measurement target.

According to the sensor evaluation board 10 according to the present embodiment, it is possible to provide an environment that enables efficient operation evaluation by combining a plurality of various sensors that detect different physical quantities. Further, according to the sensor evaluation board 10 according to the present embodiment, it is possible to provide an application development environment and an evaluation environment in which different physical quantities detected by various sensors are combined. Therefore, new articles using sensors are used for articles that contribute to IoT. It is possible to develop various usages.

[Example 2]
FIG. 2 is a block diagram showing a schematic configuration of the evaluation support system 1 according to the embodiment of the present invention. The evaluation support system 1 according to this embodiment is a system for supporting motion evaluation of an article using a sensor in IoT. In the support system 1 of this embodiment, a sensor that detects a plurality of types of state quantities and physical quantities, and an operating environment and operating characteristics at the time of collecting information in an article incorporating the sensor are supported. In addition, the evaluation support system can collect the types of sensors and data used by the user. As a result, user trends and needs can be grasped and used for the development of the next product.

The evaluation support system 1 shown in FIG. 2 includes one or more evaluator terminals (30a, 30b, 30c) connected to each other by a network N, and an evaluation support server 40. The network N includes a public network such as the Internet, a wireless network such as a mobile phone network, a dedicated network such as a VPN (Virtual Private Network), and a network such as a LAN (Local Area Network). In the evaluation support system 1 of FIG. 1, three evaluator terminals (30a, 30b, 30c) and a single evaluation support server 40 are typically exemplified, but in the network N, three units are exemplified. More than one evaluator terminal and a plurality of evaluation support servers 40 can be connected. Hereinafter, the evaluator terminals (30a, 30b, 30c) are collectively referred to as "evaluator terminal 30" or simply "terminal 30". Further, although the support process by the evaluation support server 40 will be described below, the support process may be provided by a so-called cloud, which is provided by a plurality of computers connected to the network N in conjunction with each other.

First, the hardware configuration of the evaluation support server 40 will be described. FIG. 3 is a diagram showing an example of the hardware configuration of the evaluation support server 40 according to this embodiment. As shown in FIG. 3, the evaluation support server 40 includes a processor 41, a main storage device 42, an auxiliary storage device 43, a communication IF 44, and an input / output IF 45 connected to each other by a connection bus 46 as components. The main storage device 42 and the auxiliary storage device 43 are recording media that can be read by the evaluation support server 40. Each of the above components may be provided in a plurality of elements, or some components may not be provided. The terminal 30 operated by the evaluator is realized by a hardware configuration substantially equivalent to that of the evaluation support server 40.

The processor 41 is a central processing unit that controls the entire evaluation support server 40. The processor 41 is, for example, a CPU (Central Processing Unit), an MPU (Micro-Processing Unit), a DSP (Digital Signal Processor), or the like. The processor 41, for example, deploys a program stored in the auxiliary storage device 43 executably in the work area of the main storage device 42, and controls peripheral devices through the execution of the program to perform a function that meets a predetermined purpose. I will provide a. However, some or all the functions provided by the processor 41 may be provided by an ASIC (Application Specific Integrated Circuit), a GPU (Graphics Processing Unit), or the like. Similarly, some or all functions are realized by dedicated LSI (large scale integration) such as FPGA (Field-Programmable Gate Array), numerical arithmetic processor, vector processor, image processor, and other hardware circuits. May be good. In the present embodiment, the processor 41 of the evaluation support server 40 is an example of the “control unit”.

The main storage device 42 stores a program executed by the processor 41, data processed by the processor, and the like. The main storage device 42 includes a flash memory, a RAM (Random Access Memory), and a ROM (Read Only Memory). The auxiliary storage device 43 is a storage medium for storing a program executed by the processor 41 or the like, operation setting information, and the like. The auxiliary storage device 43 includes, for example, an HDD (Hard-disk Drive), an SSD (Solid State Drive), an EPROM (Erasable Programmable ROM), a flash memory, a USB memory, an SD (Secure Digital) memory card, and the like. The communication IF 44 is a communication interface for connecting the evaluation support server 40 and other devices such as the terminal 30. The communication IF 44 can adopt an appropriate configuration according to the connection method with other devices. The input / output IF 45 is an interface for inputting / outputting data to / from an input device such as a mouse, keyboard, and microphone connected to the evaluation support server 40, a display device such as an LCD, and an output device such as a printer. Through the communication IF 45, operating characteristics and the like related to various sensors acquired through the terminal 30 connected to the network N are collected. Similarly, information such as various control commands for developing an application for the terminal 30 registered in advance is provided.

Returning to FIG. 2, the terminal 30 together with the sensor evaluation board 10 and the evaluation kit 20 described in the first embodiment constitutes an evaluation / development environment for an article capable of collecting information by IoT. However, the terminal 30 is directly connected to the sensor evaluation board 10, and various sensors (sensors 12) mounted on the board, external sensors connected through the expansion connector 13, and various types connected to the module interface unit 14. The operation of the sensor module or the control module may be evaluated. In the operation evaluation, we are developing the operation evaluation of the equipment including the above sensor device that imitates the usage environment and usage state of the article to be used for IoT, and the development of the control application etc. that uses the physical quantity detected through various sensor devices as a parameter. Will be. A control application for a device to be controlled in an article to be subjected to IoT is developed according to a physical quantity and a state quantity detected by various sensors connected through the sensor evaluation board 10.

The terminal 30 is connected to the evaluation support server 40 through the network N. Then, the evaluation support server 40 registers the identification information (IP address, etc.) and the like that identify the own terminal by accepting the operation input of the evaluator. In the terminal 30, various services related to IoT development provided by the evaluation support server 40 and development of sensors mounted on articles can be enjoyed by using the registered identification information.

In the evaluation support system 1 according to the present embodiment, the evaluation support server 10 includes a bulletin board application 410, an algorithm development application 420, a software creation application 430, and a user information registration application 440 as functional elements. Further, the evaluation support server 40 includes a user information DB 450, a data providing DB 460, and an information collecting DB 470. The user information DB 450, the data providing DB 460, and the information collecting DB 470 are, for example, databases built in the auxiliary storage device 43.

The bulletin board application 410 provides various information to the terminal 30 connected through the network N. For example, it provides operating characteristics (usage environment, operating range, detection data, etc.) related to the sensor group mounted on the sensor evaluation board 10 and the sensor group that can be connected to the expansion connector, and information on various modules that can be connected through the module connector. Will be done. In addition, various topics related to IoT development (information on algorithm development using sensors (development schedule, mounting environment, sensor characteristics for each manufacturer, chat, etc.), articles that can be used for IoT, and various sensors and articles. Information on development trends regarding combinations, development information on sensor devices, events, etc.) is provided. Further, specific information on various sensors planned to be used by the evaluator who operates the terminal 30 and advice on implementation are provided.

In addition, the bulletin board application 410 collects and stores the history of comments written on the bulletin board by users and the like regarding various topics related to the development of IoT in the information collection DB 470. The bulletin board application 410 has, for example, identification information (identification number, title, etc.) that identifies a thread related to various topics related to the development of IoT, time information when the thread is started to be provided, and time information when the provision is completed. Is associated and stored in the information collection DB 470. In the information collection DB 470, the content of the user's comment written in each thread, the uploaded image information, and the like are collected and accumulated together with the above information.

The bulletin board application 410 is, for example, user's comments and pasted on the history information of each thread collected and accumulated in the information collection DB 470, and various topics related to the development of IoT written in the thread being provided. Information analysis on predetermined contents is performed based on images and the like. For example, the frequency of appearance of keywords included in the history information of each thread and the user's comment is analyzed. Then, by associating the topics and comment contents written in threads or the like with each of a certain number of keywords having a high frequency of appearance, information indicating development trends and technological trends related to IoT is extracted. In the above description example, an analysis example using keywords has been described. For example, Doc2vc, Bagof words, TF-IDF, and Wor.
Semantic analysis or relevance analysis processing such as d2vec may be performed. The extracted information is displayed on a display screen such as an LCD of the evaluation support server 10, for example. According to the evaluation support server 10 according to this embodiment, it is possible to collect information indicating development trends and technical trends related to IoT.

For example, information for identifying the type of sensor used for operation evaluation, the combination of the sensors, the type of sensor connected through the sensor evaluation board 10, the control module, and the like is acquired. Then, based on the acquired information, the frequency of use for each sensor type, the physical quantity and operating range detected by various sensors, and the trends regarding the types and combinations of control modules controlled using these information are collected. Will be done. For manufacturers of various sensors, manufacturers of control modules and sensor modules, etc., it is possible to collect useful information related to new fields such as technology development and application development.

The algorithm development application 420 provides information on the control of various sensors. For example, there are methods for sampling detection signals from sensors that the evaluator plans to use, control methods according to the usage environment of the sensors, countermeasures for noise, etc., provision of development languages for implementation, and implementation results. Algorithms, algorithms recommended by the manufacturer, etc. are provided. The evaluator can use the information related to the development of the various algorithms described above by selecting the information related to the desired sensor device, for example. The information regarding the algorithm development provided to the evaluator is registered in the data provision DB 460 in advance. Information on algorithm development that can be registered in the data provision DB 460 may be registered after obtaining the consent of the evaluator connected to this server from the above information obtained through the terminal 30, and the evaluation support server 40 is operated. The information regarding the above-mentioned algorithm development collected through the network N by the business operator or the like may be registered after obtaining the consent of the collection destination. Further, information on algorithm development using the sensor evaluation board 10 may be collected through the bulletin board by the bulletin board application 410.

The software creation application 430 provides software information about a controlled device controlled by using physical quantities detected by various sensors. For example, a sequence such as an introduction of a language suitable for a combination of sensors, a language suitable for a device to be controlled, and a command sequence for performing a desired control according to a detected physical quantity is provided. The evaluator can use, for example, information on a desired sensor device and information on the creation of various software by selecting a device to be controlled. Information about software creation provided to the evaluator is registered in the data provision DB 460 in advance. Information on software creation that can be registered in the data provision DB 460 may be registered after obtaining the consent of the evaluator from the terminal 30 connected to the network N, and the business operator or the like that operates the evaluation support server 40 may register the information on the network N. Information on software creation corresponding to various sensors collected through the data may be registered after obtaining the consent of the collection destination. Further, information regarding software creation using the sensor evaluation board 10 may be collected through a bulletin board by the bulletin board application 410.

The user information registration application 440 registers various information about the evaluator registered through the network N. For example, the identification information (IP address, etc.) of the terminal 30 regarding the user (evaluator) who uses the evaluation support server 40, the password, the sensor type to be used, the sensor model number, the language at the time of evaluation / development, and the evaluation kit 20 are identified. Identification information (model number, manufacturer name, serial number, etc.) is included. In addition, the identification information of the sensor evaluation board (model number, serial number, etc.), the identification information of the module connected to the module interface unit 14 (model number, manufacturer name, serial number, etc.), and the attribute information related to the evaluator (user ID, etc.) May be included. The above information acquired from the evaluator is associated with the user ID and stored in the user information DB 450.

<Processing flow>
FIG. 4 is a sequence diagram showing an example of the processing flow of the support service provided by the evaluation support server 40 according to the present embodiment. The sequence of FIG. 4 makes it possible to provide the evaluator who operates the terminal 30 connected to the evaluation support server 40 with information on development / evaluation using various sensors. The process shown in FIG. 4 is provided by the processor 41 of the evaluation support server 40 executing a program stored in the auxiliary storage device 43. Further, in FIG. 4, the “client” represents the terminal 30 operated by the evaluator, and the “server” represents the evaluation support server 40. Similarly, the "database" represents the user information DB 450, the data provision DB 460, and the information collection DB 470 included in the evaluation support server 40.

In step S101, the terminal 30 connected to the network N accepts the operation input of the evaluator and notifies the evaluation support server 40 designated by the URL (Uniform Resource Locator) or the like of the connection request. When the connection request from the terminal 30 is output to the evaluation support server 40 connected to the network N through the communication IF provided in the terminal, the process proceeds to step S102. In step S102, the data of the login screen for using the service provided by the evaluation support server 40 is transmitted to the terminal 30 that has received the connection request. When the evaluation support server 40 transmits the data of the login screen through the communication IF44, the process proceeds to step S103.

In step S103, the login screen is displayed on the display device of the terminal 30 operated by the evaluator. The evaluator who visually recognizes the login screen displayed through the display device operates an input device such as a mouse or a keyboard and inputs login information for using his / her own evaluation support server 40 (step S104). Then, the terminal 30 receives the login information such as the password input by the evaluator and notifies the evaluation support server 40 of the login information (login request transmission), and the process proceeds to step S105.

In step S105, authentication is performed based on the login information received from the terminal 30. When the evaluation support server 40 notifies the user information DB 450 of the received login information, the identification information (IP address) of the terminal 30, and the like as login data, the process proceeds to step S106. The identification information of the terminal 30 is acquired when the login request transmission is accepted. In step S106, data collation is performed between the user information registered in the user information DB 450 in advance and the login data notified from step S105. The evaluation support server 40 searches the user information DB 450 using the received login information as a search key, and acquires the user information stored in the corresponding record. Then, when the login information (password, IP address) registered in advance in the acquired user information matches the login data transmitted through the login screen, the use of various services provided by the evaluation support server 10 is used. Notify permission. If not, the evaluation support server 40 is notified of the information indicating that the collation was not performed as the collation result (step S107). When the data collation is completed, the process proceeds to step S107.

In step S107, the display content of the service provided to the evaluator is determined based on the collation result. For example, when it is determined that the collation results do not match, it is determined to provide a service type that can be used without registration (for example, reference to a bulletin board application, an algorithm provided free of charge, etc.). If this is not the case, the use of all the various applications provided by the evaluation support server 40 is determined. When the display content is determined, the notification of the display content is transmitted to the terminal 30, and the process proceeds to step S108.

In step S108, information indicating the display content determined by the evaluation support server 40 is displayed on the display screen of the terminal 30. For example, the use of a part of the content provided by the evaluation support server 40 is restricted according to the login information. In addition, depending on the login information, the use of all paid and free contents provided by the evaluation support server 40 is permitted.

The evaluator who visually recognizes the display screen indicating the determination of the display content displayed through the display device determines the viewing request of the menu display for the content that can be used by himself / herself. The terminal 30 receives the operation input of the evaluator and transmits a display request for the available content determined by the evaluator to the evaluation support server 40 (step S109). In step S110, the evaluation support server 40 receives the menu display decision request transmitted from the terminal 30 connected to the network N. Then, the evaluation support server 40 performs a process for providing information regarding the content content determined according to the login type of the evaluator who operates the terminal 30. As a result of the processing, the content contents corresponding to the menu corresponding to the login type of the evaluator who operates the terminal 30 are displayed on the display screen of the terminal 30. After the processing of step S110, this routine is temporarily terminated.

As described above, in the present embodiment, the evaluation support server 40 can provide the terminal 30 connected through the network N with contents related to operation evaluation using various sensors, IoT development, and the like. .. The content is provided, for example, according to the login type given in advance to the evaluator who operates the terminal 30. For example, when the evaluation support server 40 permits the use of the evaluation results and development results of the evaluator for a fee or free of charge, various contents managed and provided by the server can be used. For example, it becomes possible to use data that can be provided to others, which is registered through a bulletin board application or the like. In addition, content that can be used free of charge will be provided to evaluators whose login information has not been registered. Content that can be used free of charge includes free algorithm development apps and software creation apps provided by sensor manufacturers and suppliers that provide control modules. According to this embodiment, it is possible to construct a platform capable of sharing information by enabling efficient operation evaluation by combining a plurality of various sensors. Then, according to this embodiment, the evaluation support server 40 can exchange information with the evaluator connected through the network N to support the development of a new usage method using various sensors. The platform can provide.

Further, the evaluation support server 40 according to the present embodiment can specify information indicating development trends and technical trends related to IoT based on various information collected and accumulated in the information collection DB 470. For example, based on the information on the sensor evaluation collected in the information collection DB 470, information on the type of sensor device, the manufacturer's model number, the detected physical quantity, the operating range, etc. evaluated using the sensor evaluation board 10 is acquired. .. Further, information on the evaluation state such as the type of the sensor device connected to the expansion connector 13 of the sensor evaluation board 10, the manufacturer's model number, the physical quantity detected by the sensor device, and the operating range is acquired. Then, information on the type and model number of various modules (sensor module, control module, etc.) connected through the module interface unit 14 of the sensor evaluation board 10, the environmental state at the time of control, and the like is collected. In this embodiment, based on various information collected by the evaluation support server 40, it becomes possible to infer technological trends and development trends regarding target articles for providing IoT services, sensor devices that contribute to IoT services, and the like. .. According to the present embodiment, a manufacturer that manufactures various sensors based on the type of sensor connected through the sensor evaluation board 10, the form of operation evaluation, the combination of sensors, the control module, the control form to the sensor module, and the like. In addition, it is possible to collect useful information indicating the direction of technological development for manufacturers of control modules and the like.

(others)
The above embodiment is merely an example, and the disclosure of the present embodiment may be appropriately modified and implemented without departing from the gist thereof. The processes and means described in the present disclosure can be freely combined and carried out as long as technical inconsistencies do not occur.

Further, the processing described as being performed by one device may be shared and executed by a plurality of devices. Alternatively, the process described as being performed by different devices may be performed by one device. In a computer system, it is possible to flexibly change what kind of hardware configuration (server configuration) is used to realize each function.

<< Computer-readable recording medium >>
A program that realizes any of the above functions in an information processing device or other machine or device (hereinafter referred to as a computer or the like) can be recorded on a recording medium that can be read by a computer or the like. Then, by having a computer or the like read and execute the program of this recording medium, the function can be provided.

Here, a recording medium that can be read by a computer or the like is a recording medium that can store information such as data and programs by electrical, magnetic, optical, mechanical, or chemical action and can be read from a computer or the like. To say. Among such recording media, those that can be removed from a computer or the like include, for example, a memory such as a flexible disk, a magneto-optical disk, a CD-ROM, a CD-R / W, a DVD, a Blu-ray disk, a DAT, an 8 mm tape, and a flash memory. There are cards etc. In addition, there are hard disks, ROMs, and the like as recording media fixed to computers and the like.

In addition, in order to make it possible to compare the constituent elements of the present invention with the configurations of the examples, the constituent elements of the present invention are described below with reference numerals in the drawings.
<Invention 1>
A sensor evaluation board (10) that can be connected to an evaluation kit (20) that evaluates the characteristics of a sensor, wherein one or more sensor devices (12) that detect different physical quantities and one or more sensor devices (12). A connector (13) capable of inputting / outputting signals to / from a peripheral circuit for operating the device and an external sensor for detecting another physical quantity, which can be combined with the one or more sensor devices (12), and the one or more. A connection interface (14) for inputting / outputting a signal indicating a physical quantity detected using the sensor device (12) and a control signal relating to control to the one or more sensor devices (12) to the evaluation kit (20). And, a sensor evaluation board (10).

1: Evaluation support system 10: Sensor evaluation board 11: Interface unit 12: Environment sensor 13: Expansion connector 14: Module interface 15: Input / output IF
16: Connection bus 20: Evaluation support kit 30: Evaluator terminal 40: Evaluation support system 41: Processor 42: Main storage device 43: Auxiliary storage device 44: Communication IF
45: Input / output IF
410: Bulletin board application 420: Algorithm development application 430: Software creation application 440: User information registration application 450: User information DB
460: Provided data DB
470: Information collection DB

Claims (6)

A sensor evaluation board that can be connected to an evaluation kit that evaluates sensor characteristics.
With one or more sensor devices that detect different physical quantities,
Peripheral circuits for operating one or more sensor devices,
A connector that can be combined with one or more sensor devices and that can input and output signals to and from an external sensor that detects other physical quantities.
A connection interface for inputting / outputting a signal indicating a physical quantity detected by using the one or more sensor devices and a control signal related to control to the one or more sensor devices to the evaluation kit.
A sensor evaluation board characterized by being equipped with. Through the connection interface, a signal indicating a physical quantity detected by the one or more sensor devices and an external sensor connected to the connector, and a control signal related to control to the external sensor are input / output to the evaluation kit. The sensor evaluation board according to claim 1, wherein the board is characterized by the above. Further comprising a module connector to which a module controlled based on a physical quantity detected from the one or more sensor devices and an external sensor connected to the connector can be connected.
Based on a status signal indicating the control status of the module connected to the connector for the module through the connection interface, and a physical quantity detected from one or more sensor devices and an external sensor connected to the connector. The sensor evaluation board according to claim 1 or 2, wherein a control signal relating to control of the module is input / output to the evaluation kit. A terminal that can be connected to the sensor evaluation board according to any one of claims 1 to 3.
A server that provides predetermined information regarding the evaluation of sensor characteristics using the sensor evaluation board acquired through the terminal, and a server.
An evaluation support system characterized by including. The evaluation support system according to claim 4, wherein the server provides information on application development according to the sensor characteristics acquired through the sensor evaluation board. A computer connected through a communication line to one or more terminals connectable to the sensor evaluation board according to any one of claims 1 to 3.
Collecting predetermined information regarding the evaluation of sensor characteristics using the sensor evaluation board acquired through the one or more terminals, and
Collecting information on application development according to the sensor characteristics and
An information gathering method characterized by performing.

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