CN101820695A - Embedded gateway of indoor photo sensor wireless network - Google Patents

Abstract

The invention discloses an embedded gateway of indoor photo sensor wireless network, mainly comprising a wireless network communication control device and an information management control device. The wireless network communication control device comprises a first master control module, a general photo sensor interface module, a wireless network communication module and a gateway access module; the information management control device comprises a second master control module, a man-machine interaction module, an information configuration module, a power management module and a clock management module, wherein the first master control module is respectively connected with the general photo sensor interface module, the wireless network communication module and the gateway access module; the second master control module is respectively connected with the man-machine interaction module, the information configuration module, the power management module and the clock management module; the power management module is connected with the general photo sensor interface module; and the first master control module is connected with the second master control module. In the invention, the data processing capability of the photo sensor wireless network is improved through the dual core control structure.

Description

The embedded gateway of indoor photo sensor wireless network

Technical field

The present invention relates to a kind of computer access scheme of Interior Illumination Environment wireless sensor network, relate in particular to a kind of embedded gateway based on indoor photo sensor wireless network.

Background technology

Luminous environment is one of important indicator of indoor environment, need satisfy requirements such as people's work, life, aesthetic and vision protection.Luminous environment parameter commonly used comprises illumination, brightness, space illumination, uv radiation intensity, year exposure, colourity etc.Test data can provide real luminous environment information to provide the basis to assessment, planning and the design of room lighting, the harm that can prevent unreasonable illumination or lamp failure to bring simultaneously accurately.Present photometry technology is as independent technique, fairly perfect, but just seeming in the luminous environment testing evaluation lacks systematicness and versatility, mainly shows as: (1) concentrates in the period some key component is measured, and can't implement monitoring for a long time; (2) measurement parameter is single, and versatility is poor, poor expandability; (3) each transducer independent measurement lacks contact each other, can not positional information and luminous environment information is unified; (4) lack effective network management, automaticity is not high.

If different types of optical sensor is linked to be wireless network, set up the contact between sensing station information and the sample information, the unification that realizes data compiles processing, just can realize the distributed real-time system monitoring of luminous environment on the basis of existing photometry technology.The Zigbee technology because of its closely, the feature of low complex degree, low-power consumption, low data rate, can be applied in well in the indoor photo sensor wireless network; The advantage of its radio communication has been saved the trouble of wiring, saves and installs and improvement expenses, and greatly reduce disaster hidden-trouble.Along with computer technology, network communications technology, development of auto-control technology, intelligent requirements to network of light sensors is also more and more higher, the user wishes and can carry out visualization display to the sensor sample result by computer, and utilizes the processed offline result that the optical sensor wireless network is reconfigured.

Summary of the invention

At the demand, the purpose of this invention is to provide a kind of embedded gateway of indoor photo sensor wireless network, to improve the data-handling capacity of optical sensor wireless network.

For achieving the above object, technical solution of the present invention is: the embedded gateway of this indoor photo sensor wireless network mainly comprises wireless network communication control apparatus and information management control device, and described wireless network communication control apparatus comprises first main control module, general light sensor interface module, wireless network communication module and gateway access module; Described information management control device comprises second main control module, human-computer interaction module, information collocation module, power management module and Clock management module; Described first main control module links to each other with general light sensor interface module, wireless network communication module and gateway access module respectively; Second main control module links to each other with human-computer interaction module, information collocation module, power management module and Clock management module respectively, and power management module is connected with the general light sensor interface module; First main control module is connected with second main control module.

Further, the circuit of general light sensor interface module of the present invention is: an end of resistance R 1 is connected with the NO pin of super-low impedance analog switch S1, and the other end of resistance R 1 is connected with the negative terminal of amplifier A1, the COM pin of super-low impedance analog switch S1 and the RL pin of digital regulation resistance U2 respectively; The RH pin of digital regulation resistance U2 is connected with the output of amplifier A1 and the input of A/D converter respectively; The positive ending grounding of amplifier A1.

Further, wireless network communication module of the present invention is connected with the network state monitor.

Further, gateway access module of the present invention is connected with the communication quality indicating device.

As seen, what the embedded gateway of indoor photo sensor wireless network of the present invention adopted is the double-core control structure, and first main control module is the wireless communication controller, integrated wireless network communication module, expanding universal optical sensor interface module, gateway access module; Second main control module is the information management controller, expansion human-computer interaction module, information collocation module, power management module and Clock management module.Two group controller concurrent workings can realize the task independent operating, also can realize collaborative work by data passes and external interface.

Compared with prior art, advantage of the present invention is:

1) two group controller parallel processings task separately, transfer of data and fast operation, the data-handling capacity of optical sensor wireless network is improved thus;

2) control module adopts the low-power consumption on-chip system chip, and cost is low, and good reliability is portable strong;

3) adopt the general light sensor interface module, extensibility is strong;

4) utilize the Zigbee wireless communication technology to carry out Long-distance Control to optical sensor easily, reduce the risk and cost that network layout brings greatly, the convenient installation and transformation;

5) embedded gateway of the present invention both can be connected between optical sensor wireless network and the host computer, also can break away from host computer and work alone.When being connected between optical sensor wireless network and the host computer, the user can monitor and manage distributed optical sensor wireless network from far-end by host computer easily, also makes intelligent management, centralized control become possibility simultaneously.When the disengaging host computer works alone, obtain sample information or assign the adjustment instruction by man-machine interface.

Description of drawings

Fig. 1 is the structural representation block diagram of embedded gateway of the present invention;

Fig. 2 is the structural representation block diagram of wireless network communication control apparatus of the present invention;

Fig. 3 is the circuit theory diagrams of general light sensor interface module of the present invention;

Fig. 4 is the structural representation block diagram of information management control device of the present invention;

Fig. 5 is the double-core parallel organization schematic diagram of embedded gateway of the present invention;

Fig. 6 is the flow chart of embedded gateway of the present invention and optical sensor wireless communication under the host computer effect.

Embodiment

The embedded gateway of indoor photo sensor wireless network of the present invention provides man-machine interface, realizes the computer access function of network of light sensors; Gateway adopts the double-core control structure, handles wireless communication and information management task respectively; Expanding universal optical sensor interface is supported standard USB access way; Use graphic user interface to realize visual monitoring and control by host computer, set up rapid and reliable the connection, detect network state in real time with the sensor node in the optical sensor wireless network.

With reference to Fig. 1, the embedded gateway of indoor photo sensor wireless network of the present invention comprises wireless network communication control apparatus and information management control device.Wherein, wireless network communication control apparatus comprises first main control module 1, general light sensor interface module 2, wireless network communication module 3, gateway access module 4, network state monitor 10 and communication quality indicating device 11; The information management control device comprises second main control module 5, human-computer interaction module 6, information collocation module 7, power management module 8 and Clock management module 9; First main control module 1 links to each other with general light sensor interface module 2, wireless network communication module 3 and gateway access module 4 respectively; Wireless network communication module 3 connects network state monitor 10; Gateway access module 4 connects communication quality indicating device 11; Second main control module 5 links to each other with human-computer interaction module 6, information collocation module 7, power management module 8 and Clock management module 9 respectively, and power management module 8 is connected with general light sensor interface module 2; First main control module 1 is connected with second main control module 5.

Wherein, general light sensor interface module 2 links to each other with the I/O mouth of first main control module 1; Gateway access module 4 links to each other with the data/address bus of first main control module 1; First main control module 1 links to each other by serial ports with second main control module 5; Human-computer interaction module 6 links to each other with the I/O mouth of second main control module 5 respectively with information collocation module 7; Power management module 8 links to each other with the spi bus of second main control module 5; Clock management module 9 links to each other with the I/O interface of second main control module 5.

Fig. 2 shows a kind of embodiment of wireless network communication control apparatus.Wherein, first main control module 1 adopts the CC2430 chip of Chipcon company production.General light sensor interface module 2 is the optical sensor general-purpose interface, this general light sensor interface module 2 can be connected with chromaticity transducer, illuminance transducer and luminance sensor etc., convert dissimilar light signals to digital signal corresponding thus, and the basis signal feature carries out data processing, realizes multiplexed.The circuit theory diagrams of general light sensor interface module 2 as shown in Figure 3.Wherein, an end of resistance R 1 connects the input signal of optical sensor and the NO pin of super-low impedance analog switch S1 respectively, and the other end of resistance R 1 connects the negative terminal of amplifier A1, the COM pin of super-low impedance analog switch S1 and the RL pin of digital regulation resistance U2 respectively; The RH pin of digital regulation resistance U2 connect respectively amplifier A1 output and the input of A/D converter; The positive ending grounding of amplifier A1.During work, the IN pin of super-low impedance analog switch S1 connects the IO mouth of CC2430 chip, and the NC pin is unsettled; The RW pin of digital regulation resistance U2 connects the IO mouth of CC2430 chip.The ISL84780 chip that super-low impedance analog switch S1 adopts Intersil company to produce.The curtage signal of the program-controlled switching input of the parallel-connection structure of resistance R 1 and super-low impedance analog switch S1 is realized the general access of transducer.The model of digital regulation resistance U2 is X9241AWP, can be by the size of program control resistance.The OP27 chip that amplifier A1 adopts AD company to produce.The AD9225 chip that A/D converter adopts AD company to produce.Amplifier A1 and A/D converter all distribute voltage by power supervisor module 8.

Wireless network communication module 3 is integrated in first main control module 1.As shown in Figure 2, wireless network communication module 3 is transmitted by less radio-frequency with extraneous child node and is communicated.Further, in first main control module 1, also be integrated with network state monitor 10, determine link quality, judge sensor node working region and fault message, in real time monitoring state of network to utilize the relevant information that packet carries in the wireless communication procedure.Gateway access module 4 adopts USB interface, specifically can be the PDIUSBD12 chip, carries out the transmission of high speed batch data.Communication quality indicating device 11 utilizes the external LED light of GL pin of PDIUSBD12 chip, realize the indicative function of the communications status that gateway inserts, can judge the physical connection of USB interface whether normal and and the stage condition of compunication: in enumeration stage, LED intermittently glimmers, USB correctly discerns, and then LED keeps illuminating state.In addition, as shown in Figure 2, first main control module 1 is connected with second main control module 5 by serial ports.

Wherein a kind of execution mode of information management control device can be referring to Fig. 4.The MSP430F449 chip that second main control module 5 adopts TI company to produce; It is the infrared receiving terminal of ATA2526S338 that human-computer interaction module 6 adopts 240*160 black-and-white crystal screen and atmel corp's model.Liquid crystal display screen is connected with the MSP430F449 chip respectively with infrared receiving terminal.It is the IS61WV20488 chip that information collocation module 7 adopts the static RAM (SRAM) model of ISSI company, can store pending data.It is the chip of FS1610 that power management module 8 adopts ETC company model, and the multi-source output of this chip can be satisfied the different voltage requirements of each module of system.It is the DS1307 chip that Clock management module 9 adopts MAXIM company models, and this chip is not shaken by the CPU oikocryst and the influence of electric capacity, accurate timing.

The embedded gateway of indoor photo sensor wireless network of the present invention, adopt the double-core control structure, two group controllers (are wireless communication controller and information management controller, correspond respectively to first main control module 1 and second main control module 5) parallel, each controller can independent process data task, also can utilize data passes realization collaborative work between two group controllers, thereby improve the data-handling capacity of optical sensor wireless network.Fig. 5 is the double-core parallel organization schematic diagram of embedded gateway.First main control module is the wireless communication controller, carrying out active data by its inner integrated radio-frequency (RF) transceiver with the optical sensor wireless network node communicates by letter, the image data of each test point sensor unit is transmitted along other sensor node hop-by-hops, data arrive gateway node after the multi-hop route, gateway node receives the ordinary node data, data is analyzed the fusion back send to host computer by gateway access module 4; The wireless communication controller need manage and be provided with sensor network, comprises scanning and selected physical channel, distributes the network address in the wireless sensor network, the initialization network settings; Cooperate MAC algorithm and Routing Protocol that network adopted, assist other network nodes to set up route; Receive the control command of host computer simultaneously, finish user's request.First main control module 1 has also been expanded the general light sensor interface module, can realize illumination, brightness, space illumination, uv radiation intensity, the unified of multiple photometric and chromatric transducer such as colourity inserts, can carry out local measurement to multiple luminous environment parameter, strengthen its versatility and extensibility; By data format corresponding with it to the setting of variety classes parameter on software design, after sampled data enters network communication controller, controller carries out corresponding conversion process according to different data formats and becomes uniform data form and mark in addition, uploads and stores to make things convenient for classification of Data.

Embedded gateway of the present invention is realized double-core control as follows:

One, the data of finishing dealing with through first main control module 1 (being the wireless communication controller) transmit to second main control module 5 by serial ports, second main control module 5 at first to received data physical message classification (as illumination, brightness, space illumination, parameters such as uv radiation intensity) analyze according to its data frame format, handle accordingly then, and the storage after will handling is to information collocation module 7.The control command that same host computer is assigned also can be sent to second main control module 5 by serial line interface from first main control module 1, and the information collocation module 7 of its expansion is reset, and adjusts data storage location and mode; According to user's request power management module 8 and Clock management module 9 are adjusted accordingly, and control, change the displaying contents and the form of man-machine interface, the conversion keys function by inside setting to human-computer interaction module.

Two, same, the storage data of the external information collocation module of second main control module 5 (being the information management controller) 7 inside also transmit to first main control module 1 by serial ports, show, handle and store through USB interface to host computer; Also can be to the control information of first main control module, 1 transmission man-machine interface, realize the optical sensor radio network configuration, adjust network configuration, interpolation, deletion of node, change the general light sensor interface the sample frequency of external transducer and dormancy period etc., and adjustment information uploaded to host computer synchronously; When breaking away from host computer, can carry out online data to the optical sensor wireless network and handle and monitor, realize that embedded gateway works alone by the expansion man-machine interface.

Fig. 6 shows under the host computer effect, the flow chart of embedded gateway of the present invention and optical sensor wireless communication.After powering on, system carries out initialization, handle the USB incident, the instruction of monitoring PC control, after PDIUSBD12 receives the packet that host computer sends, thereby data are got back to the CPU memory and judge that according to interrupt register the type of usb data bag sets up correct event flag and handle with the notice main circulating program from the inside FIFO of PDIUSBD12.When receiving correct controlling of sampling information, message is handled, store data is to EpBuf, and the foreground enters the wireless receiving state, waits for the information of informing of waking up that receives child node.If do not receive any packet information in the latent period 20s, then transmit corresponding error reporting to host computer by USB equally; Need judge when receiving packet whether this packet is the information of waking up of interdependent node.Successfully receive after the information of waking up of correlator node to the child node wireless transmission controlling of sampling order of correspondence and enter the wireless receiving state, wait for and receive sampled data, if receive correct optical information sampled data bag at the appointed time, then send packet to host computer and remove corresponding control bit and reenter circulation; The repeating transmission that circulates when not receiving correct packet in the stipulated time is retransmitted and is withdrawed from circulation when number of times surpasses 3 times and report an error to host computer.Whole communication process can be divided into two parts, host computer communication and communicate by letter with sensor network nodes.In the upper machine communication process, the function of major control program is in the embedded gateway: adopt drives interrupts to realize that the main operation controller foreground task is independent of the backstage execution of USB transmission, in handling, main circulating program utilize event flag to be connected in series the subprogram of each layer functions, set up overall situation contact with this, final data reaches host computer by the end points 2 of PDIUSBD12 by the bulk transfer mode.Form by two parts with the communication protocol of sensor node, upper strata communications protocol and lower floor's communications protocol: the communications protocol utilization on upper strata is shaken hands, mechanism such as repeating transmission manage the communication between the adjacent node, sending node is received after the data grouping, by data being added a stem and a verification that pre-sets and constructing a link layer packet, then this grouping is sent to receiver, receiver utilizes verification and detects the integrality of grouping, and provide and feed back to the success of transmitter with expression branch group of received, finish rational information exchanging process, reduce the reflection of signal waveform, phenomenon of diffraction and scattering and so on and path consume and there is the wireless channel instability that is caused in barrier, and guarantee reliable, high efficiency transfer of data.The home control network communication protocol of lower floor is to be responsible for the data flow on upper strata is exchanged between wireless radio frequency modules by wireless mode, the data buffer zone receives data by the mode of first in first out, use the special function register interface to read the first in first out data, internal memory and FIFO buffer data move uses dma mode to realize.Be that unit carries out communication with the Frame between the upper-layer protocol, for lower floor's wireless telecommunications is that unit carries out communication with the data byte just then, be about to each frame data and all resolve into data byte,, data byte is reformulated Frame as useful data transmit then according to protocol format.Data frame format comprises length mark position that the agreement of IEEE301.15.4 adds automatically and RSSI, LQI position, the source the destination address position, keep fault-tolerant position and valid data position.RSSI (Receive signal StrengthIndicator) is an indicating device of accepting intensity data, LQI (Link Quality Indicator) is the link-quality indicating device, these two is the important parameter of reflection communication quality, automatically generate by hardware, can be by link quality be determined in the collection of these two parameters, judge sensor node working region and fault message, in real time monitoring state of network.

Claims (4)

1. the embedded gateway of an indoor photo sensor wireless network, it is characterized in that: comprise wireless network communication control apparatus and information management control device, described wireless network communication control apparatus comprises first main control module (1), general light sensor interface module (2), wireless network communication module (3) and gateway access module (4); Described information management control device comprises second main control module (5), human-computer interaction module (6), information collocation module (7), power management module (8) and Clock management module (9); Described first main control module (1) links to each other with general light sensor interface module (2), wireless network communication module (3) and gateway access module (4) respectively; Second main control module (5) links to each other with human-computer interaction module (6), information collocation module (7), power management module (8) and Clock management module (9) respectively, and power management module (8) is connected with general light sensor interface module (2); First main control module (1) is connected with second main control module (5).

2. the embedded gateway of indoor photo sensor wireless network according to claim 1, the circuit that it is characterized in that described general light sensor interface module (2) is: an end of resistance R 1 is connected with the NO pin of super-low impedance analog switch S1, and the other end of resistance R 1 is connected with the negative terminal of amplifier A1, the COM pin of super-low impedance analog switch S1 and the RL pin of digital regulation resistance U2 respectively; The RH pin of digital regulation resistance U2 is connected with the output of amplifier A1 and the input of A/D converter respectively; The positive ending grounding of amplifier A1.

3. the embedded gateway based on indoor photo sensor wireless network according to claim 1 is characterized in that: described wireless network communication module (3) is connected with network state monitor (10).

4. the embedded gateway based on indoor photo sensor wireless network according to claim 1 is characterized in that: described gateway access module (4) is connected with communication quality indicating device (11).

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