CN203661092U - Things Internet integrated center control detection management platform - Google Patents
Things Internet integrated center control detection management platform Download PDFInfo
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- CN203661092U CN203661092U CN201320893827.0U CN201320893827U CN203661092U CN 203661092 U CN203661092 U CN 203661092U CN 201320893827 U CN201320893827 U CN 201320893827U CN 203661092 U CN203661092 U CN 203661092U
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Abstract
The utility model discloses a things Internet integrated center control detection management platform. The things Internet integrated center control detection management platform comprises a field data acquisition unit, a network transmission unit, a data processing unit and a monitoring center host which are sequentially connected, wherein the field data acquisition unit comprises a sensor, an RFID electronic label, a camera and a bar code data acquisition terminal, the data processing unit comprises a DSP circuit, an ARINC429 bus transceiver chip circuit and a register circuit realized through a CPLD chip which are sequentially connected, and the monitoring center host is connected with the display unit and an alarm. The things Internet integrated center control detection management platform makes full use of advantages of the Things Internet, different operation platforms can be constructed according to different user demands, and information acquisition and data sharing are conveniently to realize.
Description
Technical field
The utility model relates to technology of Internet of things field, particularly the integrated middle control detection management platform of a kind of Internet of Things.
Background technology
" Internet of Things " is on the basis of " the Internet ", and its user side is extended and expanded between any article and article, carries out information exchange and a kind of network concept of communicating by letter.By information sensing equipment such as radio-frequency (RF) identification (RFID), infrared inductor, global positioning system, laser scanners, by the agreement of agreement, any article are connected with the Internet, carry out information exchange and communicate by letter, to realize a kind of network concept of intelligent identification, location, tracking, monitoring and management.
Internet of Things refers to the end-equipment of ubiquitous (Ubiquitous) (Devices) and facility (Facilities), comprises the transducer that possesses " inherent intelligence ", mobile terminal, industrial system, building control system, home intelligent facility, video monitoring system etc., " external enabling " (Enabled), as sticks the sundry assets (Assets) of RFID, the individual of portable radio terminal and vehicle etc. " intelligent object or animal " or " SMART DUST " (Mote), realize by various wireless and/or wired long distance and/or short distance communication networks interconnect (M2M), apply integrated greatly (Grand Integration), and SaaS operation isotype based on cloud computing, at Intranet (Intranet), private network (Extranet), and/or under the Internet (Internet) environment, adopt suitable security assurance information mechanism, provide safety controlled and even personalized real time on-line monitoring, location is reviewed, alarm linkage, dispatch control, program management, Long-distance Control, safety precaution, long-range repair and maintenance, online upgrading, statistical report form, decision support, the management and service functions such as leader's desktop (concentrating the Cockpit Dashboard showing), realization is " efficient to " all things on earth ", energy-conservation, safety, environmental protection " " pipe, control, battalion " integrated.
But, there is following problem in existing Internet of Things detection management platform: information standard disunity, range of application are narrow, data acquisition and monitoring means falls behind, aggregation of data analysis and processing capacity weakness, allomeric function are single and isolated, do not form integrated management and the control of systematization, intellectuality and automation.
Utility model content
For this reason, the utility model proposes the integrated middle control detection management platform of a kind of Internet of Things, can eliminate fully the one or more problems that cause due to restriction and the defect of prior art.
The utility model additional advantage, object and characteristic, a part will be elucidated in the following description, and another part will be significantly for those of ordinary skill in the art by the investigation of the explanation to below or acquire from enforcement of the present utility model.Can realize and obtain the utility model object and advantage by the structure of pointing out especially in the specification of word and claims and accompanying drawing.
The utility model provides a kind of Internet of Things integrated middle control detection management platform, it is characterized in that, the integrated middle control detection management platform of described Internet of Things comprises the field data acquisition unit, Internet Transmission unit, data processing unit and the center host that connect successively, wherein, described field data acquisition unit comprises transducer, RIFD electronic tag, camera and bar code data acquisition terminal; Described data processing unit comprises the register circuit that interconnective DSP circuit, ARINC429 bus transceiver chip circuit and CPLD chip are realized; Described center host is connected with display unit and alarm.
Preferably, described Internet Transmission unit is GPRS communication unit, Zigbee communication unit, WIFI communication unit or ethernet communication unit.
Preferably, the D0-D15 of described DSP circuit is connected with the D0-D15 of described ARINC429 bus transceiver chip circuit, RX1RDY, the RX2RDY end of described ARINC429 bus transceiver chip circuit is held corresponding connection with RX1RDY, the RX2RDY of described DSP circuit respectively, and the A0 end of described DSP circuit is connected with the A0 end of described ARINC429 bus transceiver chip circuit; The WR429CW end of the described register circuit of being realized by CPLD chip is connected with the WR429CW pin of described ARINC429 bus transceiver chip circuit, and RD429A end, the RD429B end of the register circuit that described CPLD chip is realized are held corresponding connection with RD429A end, the RD429B of described ARINC429 bus transceiver chip circuit.
Preferably, the chip that described DSP circuit adopts is TMS320F2812.
That preferably, described CPLD chip adopts is XC95144.
Preferably, the chip that described ARINC429 bus transceiver chip circuit adopts is DEI1016.
The utility model takes full advantage of the advantage of Internet of Things, can build different operating platforms according to user's different demands, is convenient to obtaining of information and sharing of data.
Accompanying drawing explanation
Fig. 1 is according to structural representation the utility model embodiment, the integrated middle control detection management platform of Internet of Things.
Fig. 2 is according to structural representation the utility model embodiment, graphics processing unit.
Embodiment
With reference to the accompanying drawings the utility model is described more fully, exemplary embodiment of the present utility model is wherein described.
As shown in Figure 1, the integrated middle control detection management platform of Internet of Things that the utility model proposes comprises the field data acquisition unit 1, Internet Transmission unit 2, data processing unit 3 and the center host 4 that connect successively.
Described field data acquisition unit 1 comprises transducer, RIFD electronic tag, camera and bar code data acquisition terminal.Described transducer can comprise temperature sensor, humidity sensor or optical sensor etc., is mainly used in the environmental parameters such as collecting temperature, humidity or illumination.Described camera is mainly used in the image of Real-time Collection environment.Described RFID electronic tag is mainly used in being identified specific objective and being read and write related data by radio signals.Described bar code data acquisition terminal is mainly used in reading the data in bar code.
Internet Transmission unit 2 is GPRS communication unit, Zigbee communication unit, WIFI communication unit or ethernet communication unit, and it is mainly used in the transfer of data collecting by field data acquisition unit 1 to data processing unit 3.
Described data processing unit 3 comprises DSP circuit 31, ARINC429 bus transceiver chip circuit 32 and the register circuit 33 of being realized by CPLD chip.
The D0-D15 of described DSP circuit 31 is connected with the D0-D15 of described ARINC429 bus transceiver chip circuit 32, RX1RDY, the RX2RDY end of described ARINC429 bus transceiver chip circuit 32 is held corresponding connection with described DSP circuit 31RX1RDY, RX2RDY respectively, and the A0 end of described DSP circuit 31 is connected with the A0 end of described ARINC429 bus transceiver chip circuit 32; The WR429CW end of the described register circuit of being realized by CPLD chip programming 33 is connected with the WR429CW pin of described ARINC429 bus transceiver chip circuit 32, and RD429A end, the RD429B end of the register circuit 33 that described CPLD chip programming is realized are held corresponding connection with RD429A end, the RD429B of described ARINC429 bus transceiver chip circuit 32.
Concrete:
16 bit data bus D0-D15 of described DSP circuit 31 are connected with the 16 bit data bus D0-D15 of the transmission buffer memory FIFO of ARINC429 bus transceiver chip circuit 32;
The read-write state control pin WR# of described ARINC429 bus transceiver chip circuit 32 is connected with output WR#, the RD# of DSP circuit 31 and register circuit 33 respectively with RD# input;
Described DSP circuit 31 is controlled the register circuit 33 of being realized by CPLD chip, and ARINC429 data pass to dsp chip by 16 bit data bus of the transmission buffer memory FIFO of described ARINC429 bus transceiver chip circuit 32.
2 road receive path RX1RDY, the RX2RDY of described ARINC429 bus transceiver chip circuit 32 enables output and is connected with 2 external interrupt RX1RDY, RX2RDY of DSP circuit 31 respectively;
The address wire A0 output of described DSP circuit 31 selects control pin input A0 to be connected with ARINC429 bus transceiver chip circuit 32 words;
The output WR429CW of the described register circuit of being realized by CPLD chip 33 is connected output RD429A, the RD429B of the register circuit 33 of being realized by CPLD chip programming with the configuration signal control pin WR429CW of ARINC429 bus transceiver chip circuit 32 and 429 channel selecting signal RD429A, the RD429B of ARINC429 bus transceiver chip circuit 32 are connected.
Content Implementation example of the present utility model is: the chip that described DSP circuit adopts is TMS320F2812.
Content Implementation example of the present utility model is: described CPLD chip adopts XC95144.
Content Implementation example of the present utility model is: the chip that described ARINC429 bus transceiver chip circuit adopts is DEI1016.
Described center host 4 is made up of main frame, it receives by data processing unit data after treatment, and described center host 4 is connected with display unit 5 and alarm 6, to show the analysis data that collect on described display unit 5, if reach threshold value, also can report to the police by described alarm 6.
According to a preferred embodiment of the present utility model, the integrated middle control detection management platform of described Internet of Things also comprises user terminal, and described user terminal is connected with described field data acquisition unit 1, Internet Transmission unit 2, data processing unit 3 and center host 4.Preferably, described user terminal is terminal or mobile terminal.
Above content is only preferred embodiment of the present utility model, for those of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, this description should not be construed as restriction of the present utility model.
Claims (6)
1. the integrated middle control detection management platform of Internet of Things, it is characterized in that, the integrated middle control detection management platform of described Internet of Things comprises the field data acquisition unit, Internet Transmission unit, data processing unit and the center host that connect successively, wherein, described field data acquisition unit comprises transducer, RIFD electronic tag, camera and bar code data acquisition terminal; Described data processing unit comprises the register circuit that interconnective DSP circuit, ARINC429 bus transceiver chip circuit and CPLD chip are realized; Described center host is connected with display unit and alarm.
2. the integrated middle control detection management platform of Internet of Things according to claim 1, is characterized in that, described Internet Transmission unit is GPRS communication unit, Zigbee communication unit, WIFI communication unit or ethernet communication unit.
3. the integrated middle control detection management platform of Internet of Things according to claim 1, it is characterized in that, the D0-D15 of described DSP circuit is connected with the D0-D15 of described ARINC429 bus transceiver chip circuit, RX1RDY, the RX2RDY end of described ARINC429 bus transceiver chip circuit is held corresponding connection with RX1RDY, the RX2RDY of described DSP circuit respectively, and the A0 end of described DSP circuit is connected with the A0 end of described ARINC429 bus transceiver chip circuit; The WR429CW end of the described register circuit of being realized by CPLD chip is connected with the WR429CW pin of described ARINC429 bus transceiver chip circuit, and RD429A end, the RD429B end of the register circuit that described CPLD chip is realized are held corresponding connection with RD429A end, the RD429B of described ARINC429 bus transceiver chip circuit.
4. the integrated middle control detection management platform of Internet of Things according to claim 3, is characterized in that, the chip that described DSP circuit adopts is TMS320F2812.
5. the integrated middle control detection management platform of Internet of Things according to claim 3, is characterized in that, that described CPLD chip adopts is XC95144.
6. the integrated middle control detection management platform of Internet of Things according to claim 3, is characterized in that, the chip that described ARINC429 bus transceiver chip circuit adopts is DEI1016.
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| Application Number | Priority Date | Filing Date | Title |
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| CN201320893827.0U CN203661092U (en) | 2013-12-31 | 2013-12-31 | Things Internet integrated center control detection management platform |
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| CN201320893827.0U CN203661092U (en) | 2013-12-31 | 2013-12-31 | Things Internet integrated center control detection management platform |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN109945139A (en) * | 2019-04-30 | 2019-06-28 | 广脉科技股份有限公司 | Multifunctional smart lamp stand system based on 5G communication |
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2013
- 2013-12-31 CN CN201320893827.0U patent/CN203661092U/en not_active Expired - Lifetime
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN109945139A (en) * | 2019-04-30 | 2019-06-28 | 广脉科技股份有限公司 | Multifunctional smart lamp stand system based on 5G communication |
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Address after: Hangzhou City, Zhejiang province 310051 Binjiang District West Street BINKANG Road No. 101 building 7 Room 606 Patentee after: GCOM TECHNOLOGY CO.,LTD. Address before: Hangzhou City, Zhejiang province 310051 Binjiang District West Street BINKANG Road No. 101 building 7 Room 606 Patentee before: Hangzhou Guangmai Science and Technology Co.,Ltd. |
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Address after: Hangzhou City, Zhejiang province 310051 Binjiang District West Street BINKANG Road No. 101 building 7 Room 606 Patentee after: Hangzhou Guangmai Science and Technology Co.,Ltd. Address before: 310052 Binjiang District, Hangzhou, Jiangnan Avenue, No. Hing Building, room No. 1305, Room 518 Patentee before: HANGZHOU GUANGMAI TECHNOLOGY Co.,Ltd. |
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Granted publication date: 20140618 |