RU117222U1 - WIRELESS DATA COLLECTION SYSTEM - Google Patents

Abstract

1. Wireless data collection system containing a base station connected to a personal computer via a serial or parallel interface, mobile nodes equipped with sensors for determining environmental parameters and means of wireless data transmission between mobile nodes and the base station, characterized in that the system is equipped with at least three stationary nodes, each of which is equipped with sensors for determining environmental parameters, controlling a microcontroller connected to a radio frequency module and including an analog-to-digital converter of continuous signals of the above sensors, timers-counters of discrete signals of the above sensors, built-in non-volatile memory, while mobile the nodes are made as stationary and equipped with a unit for determining the coordinates of their current location, and the base station is equipped with a control microcontroller associated with a radio frequency communication module. ! 2. Wireless data collection system according to claim 1, characterized in that mobile and stationary units are equipped with connectors for connecting replaceable sensors with digital, analog or counter output. ! 3. Wireless data collection system according to claim 1, characterized in that the microcontrollers of stationary and mobile nodes, as well as the base station are made with the ability to change the topology of the wireless communication network. ! 4. Wireless data acquisition system according to claim 1, characterized in that the sensors are equipped with their own battery and / or are powered from the node to which they are connected. ! 5. Wireless data collection system according to claim 1, characterized in that the dates

Description

The utility model relates to control devices, including devices for positioning objects, collecting and processing data, and can be used in the repair, commissioning, and decommissioning of chemical and radiation hazardous objects to monitor physical parameters of the environment (temperature, humidity, gas contamination, radiation background), ensuring safety and the most rational movement of personnel and equipment.

Known wireless system for collecting and transmitting data about the parameters of the environment of the object of the environment according to the application US No. 2009198112 (A1), containing a wireless mobile node, including an attachment to the object, a biometric sensor, an environmental parameter sensor and a device for wireless transmission of biometric and physical data containing analog digital converter. The device includes a controller for the operation of the wireless transmitter. In addition, the mobile node contains a small amount of memory, which stores biometric and physical data, as well as a battery.

The disadvantage of this device is the lack of developed network capabilities, which prevents the construction of an extensive wireless data collection network, as well as the inability to determine the location of a mobile node relative to other mobile nodes.

A known system for collecting data through wireless sensor networks, their recording and accumulation according to the application US No. 20101076440 A1 containing a set of mobile wireless nodes made on the basis of RFID technology, capable of determining their location relative to available stationary nodes, a set of stationary wireless nodes built into access control devices in premises, a set of stationary devices for reading information from the above labels and capable of transmitting this data via a wired or wireless channel to the center ny server, a base station by radio receiver, serving to collect data from the active and stationary wireless nodes configured as a personal computer.

The disadvantages of the known device are the lack of unification between mobile and stationary wireless nodes, the inability to connect sensors of physical environmental parameters to the mobile and stationary nodes for collecting and accumulating data on environmental parameters, the rigid structure of the wireless network due to the use of RFID technology.

Closest to the proposed is a system for monitoring environmental parameters according to the application of US No. 2006180676 (A1), adopted as a prototype. The system comprises a base station connected to a personal computer and a mobile node connected to the base station via a wireless network. The mobile unit includes a sensor of physical environmental parameters, a controller and a radio transceiver for receiving, processing and transmitting a signal received from the sensor, a video camera and a signal processing board for determining the location of the mobile sensor and transmitting this information together with the measured environmental parameters to the base station.

A disadvantage of the known system is the complexity of the design of the mobile node, the inability to ensure self-organization of the system, the need for a large number of pre-created recognizable images in a controlled room and the complexity of the method for determining the location of the mobile node from the images using the video signal of the camera installed in the mobile node, which reduces the reliability of the system and accuracy of the data.

The task is to develop a wireless network for monitoring the physical parameters of the environment (temperature, humidity, gas contamination, radiation background), the nodes of which have the ability to determine their location relative to other nodes and transmit their coordinates to the central network node in order to control physical parameters not only in fixed coordinates space, but also in the area of objects moving in space along an arbitrary path: for example, enterprise personnel or mobile robots.

The technical result from the use of the utility model is the collection of data at a predetermined point in the controlled space, as well as the location of an arbitrarily moving object and the simultaneous collection of data on environmental parameters at the location of the said object, improving the accuracy of monitoring at the object of observation, including chemical or radiation-hazardous facility, and better personnel awareness, which ensures greater safety of the necessary work, rational new movement of equipment and personnel. Also, the technical result is to increase the unification of the system nodes, increase the operating time of the nodes from their own batteries and their service life due to the applied communication technology and determining the local location.

The technical result is achieved in that the wireless data acquisition system comprises a base station connected to a personal computer via a serial or parallel interface, at least three stationary nodes, mobile nodes and means for wireless data transmission between the nodes and the base station. Each stationary node is equipped with sensors for determining environmental parameters, controlling a microcontroller connected to a radio frequency module and including an analog-to-digital converter of continuous signals of the above sensors, timers-counters of discrete signals of the above sensors, and built-in non-volatile memory. Mobile nodes are made as stationary and are equipped with a unit for determining the coordinates of their current location. The base station is equipped with a control microcontroller associated with a radio frequency communication module.

Mobile and stationary nodes are equipped with connectors for interchangeable sensors with digital, analog or counting output. The microcontrollers of stationary and mobile nodes, as well as the base station, are configured to change the topology of the wireless communication network. The sensors are equipped with their own battery and / or receive power from the node to which they are connected. As sensors for determining environmental parameters, sensors of pressure, temperature, humidity, air composition, and radiation sensors are used. The data network is implemented on the basis of IEEE 802.15.4 (ZigBee) technology or on the basis of IEEE 802.11a / b / g / n (Wi-Fi) technology. The housing of the stationary unit is provided with fasteners to the surface and / or DIN rail. The housing of the mobile unit is provided with fasteners to the surface and / or clothing.

The utility model is illustrated in the diagram.

The described system comprises a personal computer 1 of the workplace of the system operator, a base station 2 connected to it via a serial or parallel interface, a set of stationary nodes 3 and mobile nodes 4 connected to the base station 2 via a radio channel.

The base station 2 contains a control microcontroller 5, connected to the interface circuit 6, and a radio frequency transceiver 7, which through the antenna 8 interacts with all nodes of the network.

Each stationary node 3 includes an electrically connected control microcontroller 9, a power source 10, an RF transceiver 11, an antenna 12, a set of sensors with an analog output signal 13, and a set of sensors with a discrete output signal 14 and is designed to collect data on the physical parameters of the environment and construct information measuring network. The control microcontroller 9 of the stationary node 3 is equipped with a non-volatile memory 15, in particular for storing the node settings and its current coordinates, with a multi-channel analog-to-digital converter 16, designed to collect data from sensors with an analog output signal 13 and timer counters 17 for collecting data from sensors with a discrete output signal 14. The housing of the stationary node 3 is equipped with fastening elements made with the possibility of mounting on a surface, in particular on a wall and / or on a DIN rail, which ensures quick e mounting unit at a predetermined location.

Mobile nodes 4 are made basically the same as stationary nodes 3. In addition, the control microcontroller 18 of the mobile node 4 is equipped with a local coordinate determining unit 19 for determining the location of the mobile node 4 with respect to nearby stationary nodes 3. The housing of the mobile node 4 is equipped with surface mount elements and / or clothing. The housing of the mobile unit is compact for convenient placement on moving objects or, for example, in the pocket of work clothes. Microcontrollers 5,9,18 are configured to change the topology of the wireless communication network due to the built-in software. Thus, the wireless communication network is self-organizing, it has the ability to change topology during operation without human intervention.

The system operates as follows.

When preparing a wireless network for work to build a network topology, base station 2 sends out a broadcast request to determine the presence of nodes in the network and set their network address, determine all possible data transmission routes within the network.

Requests for environmental parameters and / or settings of mobile and stationary nodes 3, 4 from the personal computer 1 are received via a wired interface through an interface board 6 to the microcontroller 5 of the base station 2, after which they are transmitted via the radio transmitter 7 equipped with antenna 8. All nodes 3, 4 in a state of receiving information receive the above requests. The node that has received the request addressed to this particular node processes the request, generates a response and passes it in the opposite direction. The requests received by the node addressed to other nodes are transmitted further over the wireless network. The host, which is the final destination, processes the request, generates a response, and sends it back over the network.

The collection of data on environmental parameters is carried out using sensors 13, 20 and sensors 14, 21, respectively connected to microcontrollers 18 of mobile units 4 or microcontrollers 9 of fixed units 3 via a wired interface. Reception of analog signals is performed by the built-in analog-to-digital converter 16, 22, respectively, of the control microcontroller 9, 18, and discrete signals are received by timers-counters 17, 23, respectively, of microcontrollers 9, 18.

The described system was implemented based on the following components:

- personal computer standard IBM PC;

- base station - SmartRF board manufactured by Texas Instruments, with the Texas Instruments CC2430 radio module installed in it;

- stationary nodes 3 of the system are made in the form of stand-alone devices with battery power. As a control microcontroller 4, a system based on a CC2430 chip with a radio frequency transceiver installed inside was used.

- the mobile nodes of the system are structurally and schematically identical to the stationary nodes, except that they use a Texas Instruments CC2431 chip as a control microcontroller. The embedded software of these nodes is supplemented by the ability to collect information from nearby network nodes of information about the level of the received signal, as well as using the received information to determine the own location of the mobile node.

- As a wireless network, IEEE802.15.4 standard network was used. The protocol stack is software implemented. This network is self-organizing, it has the ability to change topology during operation without human intervention, which is achieved through software built into the microcontrollers of the mobile and stationary nodes of the system, as well as the base station.

- the following sensors were used as sensors with an analog output signal: LM60 temperature sensor, TGS2602 air composition sensor and HS129 smoke sensor; as sensors with a discrete output signal - PDPG-006P semiconductor detector of ionizing radiation.

The system was implemented as a prototype and its tests showed that the created wireless system is self-organizing and allows data collection both at predetermined points of the controlled space in which stationary nodes are installed, and at arbitrary points of space using mobile nodes with simultaneous determination location coordinates of the mobile node. The manufactured system has a high hardware unification, which reduces the cost of developing and manufacturing an industrial version of the system. Despite the fact that the mobile and stationary nodes were equipped with conventional battery power, the used radio communication protocol ensures their continuous continuous operation.

Claims (8)

1. A wireless data acquisition system comprising a base station connected to a personal computer via a serial or parallel interface, mobile nodes equipped with sensors for determining environmental parameters and means for wireless data transmission between mobile nodes and the base station, characterized in that the system is equipped with at least three stationary nodes, each of which is equipped with sensors for determining environmental parameters that control the microcontroller associated with the radio frequency a module and including an analog-to-digital converter of continuous signals of the aforementioned sensors, timer-counters of discrete signals of the aforementioned sensors, a built-in non-volatile memory, while the mobile nodes are made as stationary and equipped with a unit for determining the coordinates of their current location, and the base station is equipped with a control microcontroller associated with the radio frequency communication module. 2. The wireless data acquisition system according to claim 1, characterized in that the mobile and stationary nodes are equipped with connectors for interchangeable sensors with a digital, analog or counting output. 3. The wireless data acquisition system according to claim 1, characterized in that the microcontrollers of the stationary and mobile nodes, as well as the base station, are configured to change the topology of the wireless communication network. 4. The wireless data acquisition system according to claim 1, characterized in that the sensors are equipped with their own battery and / or receive power from the node to which they are connected. 5. The wireless data acquisition system according to claim 1, characterized in that pressure sensors, temperature, humidity, air composition, and radiation sensors are used as sensors for determining environmental parameters. 6. The wireless data acquisition system according to claim 1, characterized in that the data transmission network is implemented on the basis of IEEE 802.15.4 (ZigBee) technology or on the basis of IEEE 802.11a / b / g / n (Wi-Fi) technology. 7. The wireless data acquisition system according to claim 1, characterized in that the housing of the stationary node is equipped with fastening elements to the surface and / or DIN rail. 8. The wireless data acquisition system according to claim 1, characterized in that the housing of the mobile unit is provided with fastening elements to the surface and / or clothing.