CN201607213U - Icing online monitor of overhead line - Google Patents

Abstract

The utility model discloses an icing online monitor of an overhead line which consists of a hardware part and a software part; the hardware part is divided into a lower machine and an upper machine; the lower machine hardware includes a control and processing unit based on DSP, an image collecting unit, a data collecting unit, a data storage unit, a GPRS wireless communication unit and a solar photovoltaic power unit; the upper machine hardware consists of a monitoring center server unit and a GPRS wireless communication unit; the upper machine and the lower machine realize wireless communication through a GPRS wireless network. The software is also divided into a lower machine and an upper machine; the lower machine software is responsible for driving the lower machine hardware to complete image and data collection, calculating and judging the icing thickness and types according to the collected images, and driving the GPRS wireless communication unit to together send the compressed images and the monitoring result to the upper machine; and the upper machine software is responsible for driving the upper machine hardware to complete GPRS wireless communication and realize human-machine interaction interface and monitoring information management. The icing online monitor of the overhead line realizes overall monitoring on icing disasters.

Description

A kind of overhead transmission line icing on-Line Monitor Device

(1) technical field:

The utility model provides a kind of overhead transmission line icing on-Line Monitor Device, particularly relate to a kind of overhead transmission line icing on-Line Monitor Device based on machine vision technique, this device can be monitored the thickness and the density of overhead transmission line icing in real time, and the icing type judged, thereby realize monitoring and early warning to overhead transmission line icing disaster.Relate to wherein that machine vision, data acquisition, embedded image are handled and based on the wireless communication technique of GPRS (General Packet Radio Service) (GPRS), the GPRS wireless telecommunications are corresponding GPRS radio communication unit in the device hardware configuration, corresponding GPRS wireless telecommunications thread in the device software structure.This device belongs to Flame Image Process and monitoring class device.

(2) background technology:

China is vast in territory, landform is various, is one of serious country of icing disaster.At the beginning of 2008, the serious icing disaster of China's southern area has caused major accidents such as long-time large-area power-cuts and circuit break, shaft tower collapses.Because weather condition was abominable when the icing disaster formed, the electric power first-aid work progress is slow, and economic loss is huge.Current disaster reflects that China still lacks the effective means of icing disaster monitoring and early warning at present, lacks effective overhead transmission line icing on-Line Monitor Device.

Powerline ice-covering wherein mainly contains glaze, mixes rime, soft rime and accumulated snow etc. because of meteorological condition difference kind is a lot.Ice covering thickness, type and density are the important parameters of describing an icing phenomenon.These parameters have intuitively reflected the character and the order of severity of icing evil, can be used as the icing historical summary on the one hand and provide important references for line design or transformation, also can be used as the important evidence of disaster alarm and deicing research on the other hand.The icing parameter is subjected to the influence of many extraneous factors.Factors such as meteorological condition, sea level elevation, line alignment, electric pressure and topography and geomorphology all can impact icing, and this makes that also the observation of icing parameter is very difficult.

At present, the monitoring of overhead transmission line icing mainly contains following three kinds of methods.First method is to set up the icing research station.This method needs the staff to gather the icing sample to realize circuit ice covering thickness, the isoparametric measurement of density.Though the manual measurement mode is more accurate, automaticity is low, measurement inconvenience, therefore is not suitable for extensive use.The second way is that the parameters such as inclination angle, sag and weather information to circuit are measured, and goes out ice covering thickness according to formula to calculating.This method automaticity height, but because overhead transmission line icing mechanism complexity, influence factor is numerous, does not also have the model that concerns between the parameters such as accurate description ice covering thickness and inclination angle, sag, weather information at present.In recent years, along with the development of digital technology and video technique, the monitoring that machine vision technique is applied to the overhead transmission line icing gradually comes up.This method is by camera collection icing image and utilize wireless telecommunications image information to be sent on the computing machine of Surveillance center, and the staff of Surveillance center understands circuit icing situation by image, and the disaster degree is made judgement.This method is easy to be directly perceived, but has only gathered the icing image, image is not further analyzed, and important parameters such as ice covering thickness, density are not provided yet, and icing disaster degree also needs the staff to make judgement by image, lacks scientific.

At above problem, on the basis of the third method, a kind of overhead transmission line icing on-Line Monitor Device based on machine vision technique is proposed.This device can be gathered icing circuit image and weather information in real time, directly calculate ice covering thickness and judge the icing type by image processing method on the one hand, utilize the ice covering thickness and the weather informations such as temperature, wind speed that have calculated to calculate icing density on the other hand, thereby realize comprehensive monitoring the icing disaster.

(3) summary of the invention:

1, purpose: the purpose of this utility model provides a kind of overhead transmission line icing on-Line Monitor Device.This device adopts embedded design, image acquisition, Flame Image Process and GPRS wireless communication function are integrated in one, realization is to the on-line monitoring of ice coating thickness of overhead lines, density and to the identification of icing type, and by the GPRS wireless communication mode monitoring result and icing image sent to monitoring central server.

2, technical scheme: a kind of overhead transmission line icing of the utility model on-Line Monitor Device, the two large divisions constitutes by hardware and software: the hardware components structural representation as shown in Figure 1.This hardware comprises lower computer hardware and host computer hardware two parts.Host computer hardware and lower computer hardware realize wireless telecommunications by the GPRS wireless network.Accordingly, software also is divided into slave computer software and upper computer software two parts.Lower computer hardware is responsible for the collection of image and data, and by the GPRS wireless communication mode monitoring result is sent to host computer hardware; Slave computer software is responsible for driving lower computer hardware and is finished image and weather data collection, and directly calculates ice covering thickness, judges the icing type according to the image that collects.According to ice covering thickness and weather information, slave computer software can also further calculate icing density.Last slave computer software compresses the icing image and the image and the monitoring result that will drive after the GPRS radio communication unit will compress send to host computer hardware together.Host computer hardware is responsible for finishing with the GPRS wireless telecommunications of lower computer hardware and is stored the monitoring information that lower computer hardware sends; Upper computer software is responsible for driving host computer hardware and is finished the GPRS wireless telecommunications, and realizes the management of human-computer interaction interface and monitoring information.

(1) hardware configuration:

This overhead transmission line icing on-Line Monitor Device, its hardware configuration comprise lower computer hardware and host computer hardware two large divisions.

Wherein, lower computer hardware is made up of control and processing unit, image acquisition units, data acquisition unit, data storage cell, GPRS radio communication unit and solar photovoltaic power unit based on DSP.Image acquisition units, data acquisition unit, data storage cell, GPRS radio communication unit and solar photovoltaic power unit are connected with control and processing unit based on DSP respectively.Based on the core that control and the processing unit of DSP is lower computer hardware, its control image acquisition units and data acquisition unit are gathered icing image and on-the-spot weather information respectively, and deposit data in data storage cell.Then, the data of calling in the data storage cell based on control and the processing unit of DSP are finished the calculating of ice covering thickness, density and the identification of icing type.At last, all monitoring results send to host computer hardware by the GPRS radio communication unit.The solar photovoltaic power unit provides power supply for whole lower computer hardware.

Described control and processing unit based on DSP is made of the TMS320DM642DSP chip.This chip is 32 fixed-point DSP chip of high-performance that are exclusively used in digital media applications, the work dominant frequency is up to 720MHz, processing power can reach 5760MIPS, and it is the core of lower computer hardware part, is responsible for the whole monitoring flow process of control and handles image and the data that collect.

Described image acquisition units is made up of CCD camera, TVP5150 video decoding chip, I2C bus interface and video interface, and CCD camera, I2C bus interface and video interface are connected with the TVP5150 video decoding chip respectively; Be responsible for images acquired, its structure as shown in Figure 2.The vision signal that the CCD camera is taken the icing circuit image and exported the PAL form is given the TVP5150 video decoding chip.The TVP5150 video decoding chip is to the conversion of decoding of PAL format signal, and the digital difference signal of output YUV4:2:2 form is gathered for DSP.The TVP5150 video decoding chip is connected with control and processing unit based on DSP by I2C bus interface and video interface, wherein the I2C bus interface realizes the configuration to the TVP5150 video decoding chip, and video interface is gathered the digital difference signal of the YUV4:2:2 form of TVP5150 video decoding chip output.

Described data acquisition unit is made up of analog to digital converter AD7490 chip, digital I/O interface (IO interface), signal conditioning circuit and meteorological sensor (comprising analog quantity and digital quantity meteorological sensor), the analog quantity meteorological sensor is connected with signal conditioning circuit, and signal conditioning circuit is connected with analog to digital converter AD7490 chip; The digital quantity meteorological sensor is connected with signal conditioning circuit, and signal conditioning circuit is connected with digital I/O interface; Be responsible for gathering the meteorological sensor signal of analog quantity output or digital quantity output, its structure as shown in Figure 3.Signal conditioning circuit is nursed one's health and filtering the analog and digital signal of analog sensor and digital sensors output, and AD7490 chip and digital I/O interface are then gathered simulating signal and the digital signal after the conditioning respectively.The AD7490 chip is the modulus conversion chip of 16 tunnel 12 precision, and digital I/O interface adopts 16 digital I/O interfaces on the dsp chip.Used meteorological sensor comprises: DS18b20 temperature sensor, NZ100SX wind speed wind direction sensor, DMT142 humidity sensor.

Described data storage cell is made up of two SDRAM chips, a slice FLASH chip and external memory interface, and the SDRAM chip is connected with external memory interface with data bus by address bus with the FLASH chip.The data storage cell structure as shown in Figure 4.The SDRAM chip adopts the MT48LC4M32B2B5-7 SDRAM chip of 2 Micron companies, and memory capacity reaches 256 megabits, and the application program that is used for storing after data power on realization loads.The FLASH chip adopts the AM29LV800B FLASH chip of AMD, and memory capacity reaches 32 megabits, is used for solidifying bootloader boot and application program.Two MT48LC4M32B2B5-7 SDRAM chips are connected with external memory interface with data bus by address bus with a slice AM29LV800B FLASH chip.Control and processing unit based on DSP are realized data write by external memory interface.

Described GPRS radio communication unit adopts the LQ8110 wireless module, and it is responsible for and host computer hardware is realized the GPRS wireless telecommunications;

Described solar photovoltaic power unit is made up of solar panel, SM-PL2020 type charging-discharging controller and accumulator, and solar panel is connected with SM-PL2020 type charging-discharging controller, and SM-PL2020 type charging-discharging controller is connected with accumulator.The solar photovoltaic power unit is the lower computer hardware power devices and is charge in batteries under the control of charging-discharging controller.When not having illumination, battery discharging provides power supply for system.

Wherein, host computer hardware is made up of monitoring central server unit and GPRS radio communication unit.Adopt serial ports to connect between them.The GPRS radio communication unit of this host computer hardware is made up of the LQ8110 wireless module, and it is used for carrying out communication with the GPRS radio communication unit of lower computer hardware.This monitoring central server unit adopts common computing machine, and it is used for storing, showing and manages the information that monitors.The GPRS wireless network adopts star-like connection networking, and promptly a plurality of lower computer hardware are positioned at the different location monitors the overhead transmission line icing respectively, and each lower computer hardware is respectively to the GPRS of Surveillance center radio communication unit transmitting supervisory data.Surveillance center can realize the Remote configuration of a plurality of lower computer hardware and Data Receiving.

The course of work of whole device is: after landing upper computer software, upper computer software at first sends controlled variable such as the image acquisition time interval, JPEG (a kind of image compression format) image compression quality factor according to default configuration or staff's setting to the slave computer software of specifying numbering, finish the Remote configuration to lower computer hardware.Then, gather icing image and on-the-spot weather information based on the control of DSP and processing unit control image acquisition units and data acquisition unit in the lower computer hardware, and with data storage in data storage cell.Carry out the calculating of Flame Image Process and correlation parameter based on the data that control and the processing unit of DSP calls data storage cell.At last result is sent to the server of Surveillance center by the GPRS radio communication unit.

(2) software configuration:

The software configuration of this overhead transmission line icing on-Line Monitor Device comprises two parts of slave computer software and upper computer software.

The slave computer software program is the control and the handling procedure of dsp chip, is responsible for the control lower computer hardware and realizes image acquisition, Flame Image Process and GPRS wireless telecommunications.Slave computer software is write under the CCS2.0 translation and compiling environment, adopts the RF5 reference frame, and is by DSP/BIOS operating system that bottom hardware and driving thereof is fully abstract, thereby improves the reusability and the portability of program.DSP/BIOS is a quasi real time operating system, for embedded development provides basic operation service with using.The RF5 reference frame is a kind of general setup code of the DSP/BIOS of use kernel.At concrete application program, the configuration that the user can revise the RF5 reference frame makes up application program rapidly, thus the faster procedure development progress.Program of lower computer based on DSP/BIOS and RF5 reference frame is divided into 4 threads, is respectively control thread, image and data acquisition thread, Flame Image Process thread and GPRS wireless telecommunications thread.The relation of each cross-thread is as follows: GPRS wireless telecommunications thread receives the controlled variable of upper computer software transmission and passes to the control thread.The control thread is according to these controlled variable configuration images and data acquisition thread and Flame Image Process thread.The Flame Image Process thread process is from the data of image and data acquisition thread, and result is sent to GPRS wireless telecommunications thread.GPRS wireless telecommunications thread sends to host computer hardware with the result that receives by the GPRS wireless network.The synchronous communication of each cross-thread adopts SCOM (synchronous communication mechanism) to finish.Structural relation between each thread as shown in Figure 5.

Described control thread is responsible for finishing the setting of program basic parameter, as the image acquisition time interval, jpeg image compressed article prime factor or the like.Upper computer software can be by the GPRS wireless telecommunications to the slave computer software transmitting control parameters, the GPRS wireless telecommunications thread of slave computer software receives the controlled variable from upper computer software, and controlled variable passed to the control thread, realize the configuration of lower computer hardware parameter by the control thread.

Described image and data acquisition thread are responsible for finishing two aspect functions.The one, the initialization video decoding chip, the video interface that drives DSP is gathered decoded video data stream, and with image data storage in the SDRAM chip, use for the Flame Image Process thread.The 2nd, configuration analog to digital converter and digital I/O interface, gather weather information and with data storage in the SDRAM chip.

Described Flame Image Process thread is the software kernels of device.This thread is responsible for finishing treatment of picture, ice covering thickness and density calculation, icing type identification and image JPEG compression.The software processes process flow diagram of this part as shown in Figure 6.At first original image is carried out pre-service, promptly image is carried out filtering and enhancing, reach the purpose of removing noise and strengthening image useful part information.Next adopt Color Image Edge extraction algorithm that image is carried out edge extracting, extract the edge of wire icing and calculate the occupied pixel count Δ N of icing picture traverse based on the HSI color model.Because d=K * Δ N, wherein d is the testee size, and K is the proportionate relationship of camera pixel spacing and actual object size, and this coefficient can obtain by video camera is demarcated in advance.Utilize this relation can calculate the thickness h (h=(d-2r)/2, wherein h is an ice covering thickness, r is an overhead transmission line lead radius) of the width d and the ice of lead behind the icing.According to pre-set threshold, program judges whether ice covering thickness exceeds standard, if be above standard the transmission warning message.The Jones model is adopted in the icing density calculation, this model description the relation between icing density, thickness and the meteorologic factors such as temperature, wind speed, can calculate icing density by ice covering thickness and the weather information that collects.Different icing types such as glaze, mixing rime, soft rime and accumulated snow have no profile characteristics.According to this feature, icing type identification program adopts the type identification of form fit algorithm realization to icing according to the features of shape of icing image.At last, in order to reduce the data volume of GPRS wireless telecommunications, the image that collects is carried out the jpeg image compression.

Described GPRS wireless telecommunications thread has two functions.The one, be responsible for image and ice covering thickness, the result of calculation of density and the result of determination of icing type after host computer hardware sends the JPEG compression.The 2nd, be responsible for receiving the controlled variable that upper computer software sends to slave computer software, and parameter is passed to the configuration that the control thread is realized lower computer hardware.

Upper computer software adopts VC++6.0 to write and utilizes SQL Server 2000 exploitation background data bases, and the upper computer software structure as shown in Figure 7.Man-machine interaction partly is responsible for the demonstration of image and data and is provided controlled variable that window is set, and realizes the mutual of staff and device.The GPRS wireless telecommunications partly are responsible for driving the work of GPRS radio communication unit, realize the wireless transmission and the reception of data.Database section storage monitoring information, and realize functions such as management and inquiry.The workflow of upper computer software and and each several part between relation be: after managerial personnel land, at first carry out wireless connections with the lower computer hardware of specifying numbering, and, lower computer hardware is carried out Remote configuration to the controlled variable that slave computer software transmission managerial personnel set; Then, slave computer software sends to host computer hardware with image and the result of calculation that collects by the GPRS wireless network, and upper computer software shows the image that receives and result of calculation and information is preserved into database.Slave computer software can regularly send data to host computer hardware according to the time interval that controlled variable is set, thereby realizes the on-line monitoring to the overhead transmission line icing.

3, advantage and effect:

A kind of overhead transmission line icing of the utility model on-Line Monitor Device, its advantage and beneficial effect are as follows:

1. device adopts machine vision technique and embedded image treatment technology to realize the direct measurement of ice covering thickness, and method is simple and reliable;

2. device in conjunction with weather information and image processing techniques, is realized the judgement of icing density calculation and icing type on the ice covering thickness based measurement;

3. plant automation degree height has been realized the unmanned real time on-line monitoring to the icing disaster;

4. device can be realized many-to-one communication by the networking of GPRS wireless network.Many slave computers can be distributed in diverse geographic location, and icing information is sent to Surveillance center, thereby realize distributed monitoring.

(4) description of drawings:

Fig. 1 the utility model hardware configuration block diagram

Fig. 2 the utility model image acquisition units structural drawing

Fig. 3 the utility model data acquisition unit structural drawing

Fig. 4 the utility model data storage cell structural drawing

Fig. 5 the utility model slave computer software structural representation

Fig. 6 the utility model Flame Image Process thread software flow synoptic diagram

Fig. 7 the utility model upper computer software structural representation

(5) embodiment

A kind of overhead transmission line icing of the utility model on-Line Monitor Device, its hardware configuration can be divided into lower computer hardware and host computer hardware two large divisions.The hardware components structural representation as shown in Figure 1.Wherein lower computer hardware is made up of control and processing unit, image acquisition units, data acquisition unit, data storage cell, GPRS wireless communication unit and solar photovoltaic power unit based on DSP.Image acquisition units, data acquisition unit, data storage cell, GPRS radio communication unit and solar photovoltaic power unit are connected with control and processing unit based on DSP respectively.Host computer hardware is made up of monitoring central server unit and GPRS radio communication unit, adopts serial ports to connect between them.

Described control and processing unit based on DSP is made of the TMS320DM642 dsp chip, this chip is 32 fixed-point DSP chip of high-performance that are exclusively used in digital media applications, the work dominant frequency is up to 720MHz, processing power can reach 5760MIPS, and have the video interface of 3 comparable configurations, can gather the video data of multiple form.

Described image acquisition units is made up of CCD camera, TVP5150 video decoding chip, I2C bus interface and video interface, and CCD camera, I2C bus interface and video interface are connected with the TVP5150 video decoding chip respectively; Be responsible for images acquired, its structure as shown in Figure 2.The vision signal that the CCD camera is taken the icing circuit image and exported the PAL form is given the TVP5150 video decoding chip.The TVP5150 video decoding chip is to the conversion of decoding of PAL format signal, and the digital difference signal of output YUV4:2:2 form is gathered for DSP.The TVP5150 video decoding chip is connected with control and processing unit based on DSP by I2C bus interface and video interface, wherein the I2C bus interface realizes the configuration to the TVP5150 video decoding chip, and video interface is gathered the digital difference signal of the YUV4:2:2 form of TVP5150 video decoding chip output.

Described data acquisition unit is made up of analog to digital converter AD7490 chip, digital I/O interface (IO interface), signal conditioning circuit and meteorological sensor (comprising analog quantity and digital quantity meteorological sensor), the analog quantity meteorological sensor is connected with signal conditioning circuit, and signal conditioning circuit is connected with analog to digital converter AD7490 chip; The digital quantity meteorological sensor is connected with signal conditioning circuit, and signal conditioning circuit is connected with digital I/O interface; Be responsible for gathering the meteorological sensor signal of analog quantity output or digital quantity output, its structure as shown in Figure 3.Signal conditioning circuit is nursed one's health and filtering the analog and digital signal of analog sensor and digital sensors output, and AD7490 chip and digital I/O interface are then gathered simulating signal and the digital signal after the conditioning respectively.The AD7490 chip is the modulus conversion chip of 16 tunnel 12 precision, and digital I/O interface adopts 16 digital I/O interfaces on the dsp chip.Used meteorological sensor comprises: DS18b20 temperature sensor, NZ100SX wind speed wind direction sensor, DMT142 humidity sensor.

Described data storage cell is made up of two SDRAM chips, a slice FLASH chip and external memory interface, and the SDRAM chip is connected with external memory interface with data bus by address bus with the FLASH chip.The data storage cell structure as shown in Figure 4.The SDRAM chip adopts the MT48LC4M32B2B5-7 SDRAM chip of 2 Micron companies, and memory capacity reaches 256 megabits, and the application program that is used for storing after data power on realization loads.The FLASH chip adopts the AM29LV800B FLASH chip of AMD, and memory capacity reaches 32 megabits, is used for solidifying bootloader boot and application program.Two MT48LC4M32B2B5-7 SDRAM chips are connected with external memory interface with data bus by address bus with a slice AM29LV800B FLASH chip.Control and processing unit based on DSP are realized data write by external memory interface.

Described GPRS radio communication unit adopts LQ8110 GPRS wireless module.This module is based on the data transmission and the remote monitoring terminal unit of the GPRS communication network of communication operator of China Mobile.The built-in ICP/IP protocol of module adopts serial ports to be connected with dsp chip and realizes the bright data transmission of two-way full impregnated.

Described solar photovoltaic power unit is made up of solar panel, SM-PL2020 type charging-discharging controller and accumulator, and solar panel is connected with SM-PL2020 type charging-discharging controller, and SM-PL2020 type charging-discharging controller is connected with accumulator.The solar photovoltaic power unit is the lower computer hardware power supply and is charge in batteries under the control of charging-discharging controller.When not having illumination, battery discharging provides power supply for system.

Described ipc monitor central server unit adopts common computer to realize, is responsible for storage, shows and the management Monitoring Data.The staff of Surveillance center can carry out analysis and the management of man-machine interaction realization to monitoring parameter by upper computer software.

Described host computer GPRS radio communication unit adopts and the same LQ8110 GPRS wireless module of slave computer, is responsible for sending controlled variable and receiving the monitoring information that slave computer sends to slave computer software.Wireless network adopts star-like networking, realizes the communication of a plurality of lower computer hardware and a monitoring central server.

Software design based on the overhead transmission line icing on-Line Monitor Device of machine vision technique is divided into slave computer software and two parts of upper computer software.

Slave computer software is the control and the handling procedure of dsp chip, is responsible for the hardware of control slave computer and realizes image acquisition, Flame Image Process and GPRS wireless telecommunications.Slave computer software is used the C language compilation under the CCS2.0 translation and compiling environment.The design of this program can be 4 threads based on DSP/BIOS operating system and RF5 reference frame, is respectively control thread, image and data acquisition thread, Flame Image Process thread and GPRS wireless telecommunications thread.The relation of each cross-thread is as follows: GPRS wireless telecommunications thread receives the controlled variable of upper computer software transmission and passes to the control thread.The control thread is according to these controlled variable configuration images and data acquisition thread and Flame Image Process thread.The Flame Image Process thread process is from the data of image and data acquisition thread, and result is sent to GPRS wireless telecommunications thread.GPRS wireless telecommunications thread sends to host computer hardware with the result that receives by the GPRS wireless network.The synchronous communication of each cross-thread adopts SCOM (synchronous communication mechanism) to finish, and the structural relation of each cross-thread as shown in Figure 5.

Described control thread is responsible for finishing the setting of program basic parameter, as the image acquisition time interval, jpeg image compressed article prime factor etc.Upper computer software can be by the GPRS wireless telecommunications to the slave computer software transmitting control parameters, the GPRS wireless telecommunications thread of slave computer software receives the controlled variable from upper computer software, and controlled variable passed to the control thread, realize the configuration of lower computer hardware parameter by the control thread.

Described image and data acquisition thread are responsible for finishing two aspect functions.The one, the initialization video decoding chip, the video interface that drives DSP is gathered decoded video data stream, and with image data storage in the SDRAM chip, use for the Flame Image Process thread.The 2nd, configuration analog to digital converter and digital I/O interface, gather weather information and with data storage in the SDRAM chip.

Described Flame Image Process thread is the software kernels of device.This thread is responsible for finishing treatment of picture, ice covering thickness and density calculation, icing type identification and image JPEG compression.The software processes process flow diagram of this part as shown in Figure 6.At first original image is carried out pre-service, promptly image is carried out filtering and enhancing, reach the purpose of removing noise and strengthening image useful part information.Next adopt Color Image Edge extraction algorithm, extract the edge of wire icing and calculate the occupied pixel count of icing picture traverse, and calculate ice covering thickness according to the proportionate relationship of camera pixel spacing and actual object size based on the HSI color model.Program judges according to preset threshold whether ice covering thickness exceeds standard, if be above standard the transmission warning message.The Jones model is adopted in the icing density calculation, this model description the relation between icing density, thickness and the meteorologic factor, can calculate icing density by ice covering thickness and the weather information that collects.According to the feature of dissimilar icing, program adopts the type identification of form fit algorithm realization to icing according to the features of shape of icing image.At last, in order to reduce the data volume of GPRS wireless telecommunications, the image that collects is carried out the jpeg image compression.

Described GPRS wireless telecommunications thread has two functions.The one, be responsible for image and ice covering thickness, the result of calculation of density and the result of determination of icing type after host computer hardware sends the JPEG compression.The 2nd, be responsible for receiving the controlled variable that upper computer software sends to slave computer software, and parameter is passed to the configuration that the control thread is realized lower computer hardware.

Upper computer software adopts VC++6.0 to write and utilizes SQL Server 2000 exploitation background data bases, and the upper computer software structure as shown in Figure 7.Man-machine interaction partly realizes the demonstration of image and data and provides controlled variable that window is set, and realizes the mutual of staff and device.The GPRS wireless telecommunications partly are responsible for driving the work of GPRS radio communication unit, realize the wireless transmission and the reception of data.Database section utilizes SQL Server 2000 exploitations, realizes the functions such as storage, management and inquiry of monitoring information.The workflow of upper computer software is: at first carry out wireless connections with the lower computer hardware of specifying numbering after managerial personnel land, and send the controlled variable that managerial personnel set to slave computer software, lower computer hardware is carried out Remote configuration; Then, slave computer software sends to host computer hardware with image and the result of calculation that collects by the GPRS wireless network, and upper computer software shows the image that receives and result of calculation and information is preserved into database.Slave computer software can regularly send data to host computer hardware according to the time interval that controlled variable is set, thereby realizes the on-line monitoring to the overhead transmission line icing.

Claims (6)

1. overhead transmission line icing on-Line Monitor Device, it is characterized in that: this device is made of the hardware and software two large divisions, and this hardware configuration comprises lower computer hardware and host computer hardware two parts; Accordingly, this software configuration also is divided into slave computer software and upper computer software two parts;

(1) hardware configuration:

This overhead transmission line icing on-Line Monitor Device, its hardware configuration comprise lower computer hardware and host computer hardware two large divisions;

Wherein, lower computer hardware is made up of control and processing unit, image acquisition units, data acquisition unit, data storage cell, GPRS radio communication unit and solar photovoltaic power unit based on DSP; Image acquisition units, data acquisition unit, data storage cell, GPRS radio communication unit and solar photovoltaic power unit are connected with control and processing unit based on DSP respectively;

Described control and processing unit based on DSP is made of the TMS320DM642DSP chip; This chip is responsible for controlling whole monitoring flow process and is handled image and the data that collect;

Described image acquisition units is made up of CCD camera, TVP5150 video decoding chip, I2C bus interface and video interface, and CCD camera, I2C bus interface and video interface are connected with the TVP5150 video decoding chip respectively;

Described data acquisition unit is made up of analog to digital converter AD7490 chip, digital I/O interface, signal conditioning circuit and meteorological sensor, the analog quantity meteorological sensor is connected with signal conditioning circuit, and signal conditioning circuit is connected with analog to digital converter AD7490 chip; The digital quantity meteorological sensor is connected with signal conditioning circuit, and signal conditioning circuit is connected with digital I/O interface;

Described data storage cell is made up of two SDRAM chips, a slice FLASH chip and external memory interface, and two SDRAM chips are connected with external memory interface with data bus by address bus with a slice FLASH chip;

Described GPRS radio communication unit adopts the LQ8110 wireless module;

Described solar photovoltaic power unit is made up of solar panel, SM-PL2020 type charging-discharging controller and accumulator; Solar panel is connected with SM-PL2020 type charging-discharging controller, and SM-PL2020 type charging-discharging controller is connected with accumulator;

Wherein, host computer hardware is made up of monitoring central server unit and GPRS radio communication unit, adopts serial ports to connect between them; The GPRS radio communication unit of this host computer hardware is made up of the LQ8110 wireless module; This monitoring central server unit adopts common computing machine; The GPRS wireless network adopts star-like connection networking, and promptly a plurality of lower computer hardware are positioned at the different location monitors the overhead transmission line icing respectively, and each lower computer hardware is respectively to the GPRS of Surveillance center radio communication unit transmitting supervisory data; Surveillance center realizes Remote configuration and the Data Receiving to a plurality of lower computer hardware;

(2) software configuration:

This overhead transmission line icing on-Line Monitor Device comprises slave computer software and two parts of upper computer software;

The slave computer software program is the control and the handling procedure of dsp chip; Slave computer software is write under the CCS2.0 translation and compiling environment, adopts the RF5 reference frame; DSP/BIOS is a quasi real time operating system; The RF5 reference frame is a kind of general setup code of the DSP/BIOS of use kernel; Program of lower computer based on DSP/BIOS and RF5 reference frame is divided into 4 threads, be respectively control thread, image and data acquisition thread, Flame Image Process thread and GPRS wireless telecommunications thread, the relation of each cross-thread is as follows: GPRS wireless telecommunications thread receives the controlled variable of upper computer software transmission and passes to the control thread, the control thread is according to these controlled variable configuration images and data acquisition thread and Flame Image Process thread, the Flame Image Process thread process is from the data of image and data acquisition thread, and result is sent to GPRS wireless telecommunications thread; GPRS wireless telecommunications thread sends to host computer hardware with the result that receives by the GPRS wireless network; It is that synchronous communication mechanism is finished that the synchronous communication of each cross-thread adopts SCOM;

This upper computer software adopts VC++6.0 to write and utilizes SQL Server 2000 exploitation background data bases; Relation between this upper computer software and the each several part is: at first carry out wireless connections with the lower computer hardware of specifying numbering after managerial personnel land, and send the controlled variable that managerial personnel set to slave computer software, lower computer hardware is carried out Remote configuration; Then, slave computer software sends to host computer hardware with image and the result of calculation that collects by the GPRS wireless network, and upper computer software is with the image that receives and result of calculation shows and information is preserved into database; The time interval that this slave computer software is set according to controlled variable regularly sends data to host computer hardware, thereby realizes the on-line monitoring to the overhead transmission line icing.

2. a kind of overhead transmission line icing on-Line Monitor Device according to claim 1 is characterized in that: the analog to digital converter AD7490 chip in the described data acquisition unit is the modulus conversion chip of 16 tunnel 12 precision.

3. a kind of overhead transmission line icing on-Line Monitor Device according to claim 1 is characterized in that: the digital I/O interface in the described data acquisition unit adopts 16 digital I/O interfaces on the dsp chip.

4. a kind of overhead transmission line icing on-Line Monitor Device according to claim 1, it is characterized in that: the meteorological sensor in the described data acquisition unit comprises: DS18b20 temperature sensor, NZ100SX wind speed wind direction sensor and DMT142 humidity sensor.

5. a kind of overhead transmission line icing on-Line Monitor Device according to claim 1 is characterized in that: the SDRAM chip in the described data storage cell adopts the MT48LC4M32B2B5-7SDRAM chip of Micron company.

6. a kind of overhead transmission line icing on-Line Monitor Device according to claim 1 is characterized in that: the FLASH chip in the described data storage cell adopts the AM29LV800B chip of AMD.

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