CN201935687U - Minitype engineering operation numerical map survey system - Google Patents
Minitype engineering operation numerical map survey system Download PDFInfo
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- CN201935687U CN201935687U CN2010206052172U CN201020605217U CN201935687U CN 201935687 U CN201935687 U CN 201935687U CN 2010206052172 U CN2010206052172 U CN 2010206052172U CN 201020605217 U CN201020605217 U CN 201020605217U CN 201935687 U CN201935687 U CN 201935687U
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Abstract
The utility model discloses a minitype engineering operation numerical map survey system, which comprises a controller, a data processor, a topographic data collection interface module, an image output module, and a storage module. The data output end of the topographic data collection interface module is connected with the data input end of the controller; the storage module is connected with the controller; the data output end of the controller is connected with the data input end of the data processor; the data output end of the data processor is connected with the data input end of the image output module; the topographic data collection interface module comprises a total station module, a GPS (global position system) module, and an interphone module; the total station module comprises a total station and a total station electronic record book; the total station is connected with the controller through the total station electronic record book; both the GPS (global position system) module and the interphone module are connected with the controller; the image output module comprises a printing module, a display module, and a wired/wireless communication module; moreover, the data input ends of the printing module, the display module, and the wired/wireless communication module are all connected with the data output end of the data processor. The technical scheme is widely applied in engineering equipment informatization construction; moreover, relevant technical achievements can also be used for individual equipment and survey equipment informatization construction. The minitype engineering operation numerical map survey system has obvious military benefits.
Description
Technical field:
The utility model relates to the numerical map application, specifically is the engineer operation numerical map survey system of a kind of suitable field environment and portable miniaturization.
Background technology:
Figure speed is fast, precision is high because numerical map has into, be beneficial to characteristics such as analyzing use, therefore, all attaches great importance to the research of numerical map The Application of Technology both at home and abroad.Successfully developed the modern military application system that some are used for geographical environment analysis and aid decision making, can assist commanders at different levels complete, analyze the battlefield geographic environment key element accurately and rapidly, scientifically carry out military decision-making, reasonably organize military operation.But there are the following problems for existing numerical map: 1. the engineer's scale of existing numerical map is less than normal.Engineer operation needs the support of large scale numerical map usually, as: bridge, crossing a river and operation such as pretending needs 1: 500-1: 1000 scale number word maps; Operations such as field position engineering, obstacle construction need 1: 1000-1: 2000 scale number word maps; Bridge, operations such as quick-fried, field water supply need 1: 2000-1: 5000 scale number word maps.Existing numerical map ratio is all less than 1: 50000, and quantity of information is few on the figure, and precision is low, can not satisfy request for utilization.2. existing digital map information classification and content can not satisfy the engineering support job requirements.The numerical map that uses is to make by the standard-required of general military topographic map at present, and the coverage of its information and hierarchical approaches can not contain and the special requirement of satisfying engineer's engineering support aspect.As: terrain slope information, vegetation density information, river classification are to divide by length, and the engineering support aspect be by river width, flow velocity divide or the like.
Present system and the achievement in research that obtains are background with middle small scale geodata all, and when carrying out the works for military operations support mission, the one, need large-scale geography information; The 2nd, need large, medium and small engineer's scale to show on the same stage; The 3rd, need the real-time Transmission of survey data.Obviously, said system can't satisfy the active demand when carrying out the works for military operations support mission.Research numerical map technology and based on practicability technology such as the spatial analysis of numerical map, posture of operation expression, three-dimensional battlefields, with the engineering support task that carries out is the service object, put forth effort to solve under the IT-based warfare condition specific demand, to improving the works for military operations supportability and information-basedly having far reaching significance with automatization level to geographical space environment.
Summary of the invention:
The utility model is mainly studied and is fit to field environment and portable large scale numerical map survey system, the large scale numerical map that makes generation simultaneously with issue in, the small scale numerical map merges, the same platform of finally finishing large, medium and small scale number word map shows.Concrete technical scheme is as follows:
A kind of engineer operation numerical map survey system of miniaturization comprises controller, data processor, terrain data acquisition interface module, image output module and memory module; The data output end of described terrain data acquisition interface module is connected with the data input pin of controller; Memory module is connected with controller; The data output end of described controller connects the data input pin of data processor; The data output end of described data processor connects the data input pin of image output module;
Described terrain data acquisition interface module comprises total powerstation module, GPS module and intercom module; Described total powerstation module comprises total powerstation and full station electronical record handbook, and total powerstation is connected with described controller by full station electronical record handbook; Described GPS module all is connected with described controller with the intercom module;
Described image output module comprises print module, display module and wire/wireless communication module; The data input pin of described print module, display module and wire/wireless communication module all is connected with the data output end of described data processor.
Described controller is to be the circuit of core with FPGA/CPLD; Controller receives the data from terrain data acquisition interface module, and exporting to data processor from the data of total powerstation module, GPS module and/or intercom module.
Described data processor is an Intel xscale PXA270 processor, and packaged type is the BGA encapsulation of 13 * 13 or 23 * 23 millimeters spacings.
Described wire/wireless communication module comprises serial interface module, TCP/IP interface module and radio frequency interface module; The input end of serial interface module, TCP/IP interface module and radio frequency interface module is connected with the data output end of described data processor.
Described GPS module comprises GPS receiving circuit and channel device, and the GPS receiving circuit receives the signal from antenna and channel device.
The utility model characteristics are as follows:
(1) miniaturization and low power design technique
On the hardware design of data collection station, select low-power-consumption embedded chip for use, BGA to 13 * 13 millimeters spacings of data processor adopting in the circuit design encapsulates, in peripheral module control, adopt programmable logic device (PLD), reduce the use of discrete device, various chips and capacitance-resistance all adopt the paster encapsulation, and the connector of interface is realized the system hardware miniaturization guaranteeing to adopt the small-sized connector that mounts under the reliable premise.Aspect the software design of data collection station, expanded classification acquisition function to thematic information, the information of having optimized is obtained and transport module, has improved the operating speed of system.
System low-power consumption solution route: in the numerous mode of operations of central processing unit, adopt the mode of operation of low-power consumption.
2) universal scale Geographic Information System (GIS) data translation interface technology
Designed general data transformation interface (comprising terrain data acquisition interface and data processor), by this interface, can finish " number the is surveyed system " map vector data of field acquisition and changing over to, produce and safeguarding of each engineer's scale map datum form of military numerical map.
Breakthrough and solution by above-mentioned gordian technique, realized the miniaturization of data collection station, and characteristics such as volume is little, in light weight, stream time is long, easy to carry that this terminal has, realized the scene one-tenth figure and the real-time analysis of engineer operation numerical map, used for engineering and established technical foundation.
The data collection station of miniaturization can be used as the acquisition terminal use that number is surveyed system on the one hand, on the other hand, the computing function of integrated professional unit or aid decision making function on data collection station, can satisfy user demand, achievement in research directly applies to the engineer equipment information integral and builds in the relevant item, has very big impetus to improving the works for military operations supportability and the level of IT application.
The different proportion footage according between the breakthrough of gordian techniquies such as the technology of having access to automatically, universal scale Geographic Information System (GIS) data translation interface technology and data fusion, can solve the demand of geographical space environmental information software platform.Simultaneously, large scale numerical map technology can directly be served the battlefield digital Construction, has application fields.
This technical scheme has extensive use in the engineer equipment informatization, the correlation technique achievement also can be used for individual equipment and submersible electric equipment informatization, and military benefit is remarkable.
Description of drawings:
Fig. 1 is the utility model system architecture synoptic diagram.
Embodiment:
Below in conjunction with accompanying drawing and embodiment the technical program is described further:
As Fig. 1, a kind of engineer operation numerical map survey system of miniaturization comprises controller, data processor, terrain data acquisition interface module, image output module and memory module; The data output end of described terrain data acquisition interface module is connected with the data input pin of controller; Memory module is connected with controller; The data output end of described controller connects the data input pin of data processor; The data output end of described data processor connects the data input pin of image output module;
Described terrain data acquisition interface module comprises total powerstation module, GPS module and intercom module; Described total powerstation module comprises total powerstation and full station electronical record handbook, and total powerstation is connected with described controller by full station electronical record handbook; Described GPS module all is connected with described controller with the intercom module;
Described image output module comprises print module, display module and wire/wireless communication module; The data input pin of described print module, display module and wire/wireless communication module all is connected with the data output end of described data processor.
In this example, described controller is to be the circuit of core with FPGA/CPLD; Controller receives the data from terrain data acquisition interface module, and exporting to data processor from the data of total powerstation module, GPS module (SiRF starII LP solution) and/or intercom module (U.S. core intercom module M3000).
Described data processor is an Intel xscale PXA270 processor, and packaged type is the BGA encapsulation of 13 * 13 or 23 * 23 millimeters spacings.
This routine wire/wireless communication module comprises serial interface module, TCP/IP interface module and radio frequency interface module; The input end of serial interface module, TCP/IP interface module and radio frequency interface module is connected with the data output end of described data processor.
Described GPS module comprises GPS receiving circuit and channel device, and the GPS receiving circuit receives the signal from antenna and channel device.
Claims (5)
1. the engineer operation numerical map survey system of a miniaturization, its feature comprises controller, data processor, terrain data acquisition interface module, image output module and memory module; The data output end of described terrain data acquisition interface module is connected with the data input pin of controller; Memory module is connected with controller; The data output end of described controller connects the data input pin of data processor; The data output end of described data processor connects the data input pin of image output module;
Described terrain data acquisition interface module comprises total powerstation module, GPS module and intercom module; Described total powerstation module comprises total powerstation and full station electronical record handbook, and total powerstation is connected with described controller by full station electronical record handbook; Described GPS module all is connected with described controller with the intercom module;
Described image output module comprises print module, display module and wire/wireless communication module; The data input pin of described print module, display module and wire/wireless communication module all is connected with the data output end of described data processor.
2. the engineer operation numerical map survey system of miniaturization according to claim 1 is characterized in that described controller is is the circuit of core with FPGA/CPLD; Controller receives the data from terrain data acquisition interface module, and exporting to data processor from the data of total powerstation module, GPS module and/or intercom module.
3. the engineer operation numerical map survey system of miniaturization according to claim 1 is characterized in that described data processor is an Intel xscale PXA270 processor, and packaged type is the BGA encapsulation of 13 * 13 or 23 * 23 millimeters spacings.
4. the engineer operation numerical map survey system of miniaturization according to claim 1 is characterized in that described wire/wireless communication module comprises serial interface module, TCP/IP interface module and radio frequency interface module; The input end of serial interface module, TCP/IP interface module and radio frequency interface module is connected with the data output end of described data processor.
5. the engineer operation numerical map survey system of miniaturization according to claim 1 is characterized in that described GPS module comprises GPS receiving circuit and channel device, and the GPS receiving circuit receives the signal from antenna and channel device.
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CN2010206052172U CN201935687U (en) | 2010-11-12 | 2010-11-12 | Minitype engineering operation numerical map survey system |
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CN2010206052172U CN201935687U (en) | 2010-11-12 | 2010-11-12 | Minitype engineering operation numerical map survey system |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102519429A (en) * | 2011-12-19 | 2012-06-27 | 罗江临 | Method for drawing measured object engineering drawing in real time in engineering measurement |
CN107238920A (en) * | 2017-05-04 | 2017-10-10 | 深圳市元征科技股份有限公司 | A kind of control method and device based on mirror device of looking in the distance |
CN111551145A (en) * | 2020-05-27 | 2020-08-18 | 山东省城乡规划设计研究院 | Urban and rural planning inspection surveying and mapping data acquisition method |
CN112348952A (en) * | 2020-11-06 | 2021-02-09 | 中铁第一勘察设计院集团有限公司 | Three-dimensional scene construction method for multi-source geographic information data fusion in hard mountainous area |
-
2010
- 2010-11-12 CN CN2010206052172U patent/CN201935687U/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102519429A (en) * | 2011-12-19 | 2012-06-27 | 罗江临 | Method for drawing measured object engineering drawing in real time in engineering measurement |
CN107238920A (en) * | 2017-05-04 | 2017-10-10 | 深圳市元征科技股份有限公司 | A kind of control method and device based on mirror device of looking in the distance |
CN111551145A (en) * | 2020-05-27 | 2020-08-18 | 山东省城乡规划设计研究院 | Urban and rural planning inspection surveying and mapping data acquisition method |
CN112348952A (en) * | 2020-11-06 | 2021-02-09 | 中铁第一勘察设计院集团有限公司 | Three-dimensional scene construction method for multi-source geographic information data fusion in hard mountainous area |
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CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20110817 Termination date: 20111112 |