RU106390U1 - SYSTEM OF COLLECTION, PROCESSING, TRANSFER AND ANALYSIS OF DATA USING GLONASS / GPS / GSM - Google Patents

Abstract

 1. A system for collecting, processing, transmitting and analyzing data using GPS, comprising a unit for determining coordinates using a GPS receiver, a processor with random access memory, a barcode scanner, a communication unit, a display, characterized in that it is equipped with a GLONASS receiver, a unit for transmitting data on GSM networks, a database server, a barcode printer, a camera and a text data input device, while the GLONASS receiver is made in a single GLONASS / GPS unit with a GPS receiver, and the unit for transmitting data over GSM networks, a camera, GLONASS / GPS data input device and receivers are connected to a mobile data collection terminal. ! 2. The system according to claim 1, characterized in that the barcode scanner, camera, data input device, GLONASS / GPS receivers and a unit for transmitting data via GSM networks are assembled in one housing and have an autonomous power supply that allows you to use the data collection device in the field conditions.

Description

The utility model relates to technical means in the field of collection, processing and transmission of information, in particular using GPS navigation technologies.

Known systems for collecting data transmission and analysis using navigation technologies (Temnikov, V.N. Remote monitoring system for agricultural land. / V.N.Temnikov, A.V. Stolpakov, D.I. Rukhovich // ArcReview [Electron . resource]. - Sharp access: http://www.dataplus.ru/arcrev/Number_40/9_SDM.html).

A disadvantage of the known systems is the difficulty of using information on objects of technical operation in the tasks of collecting and updating information due to the lack of equipment for identifying objects.

It is also known a device for collecting information using satellite global navigation systems equipped with GPS receivers (Nemudrov, VG GLONASS / GSM / GPS mobile navigation terminal "МНТ - 001" // V.G. Nemudrov, I.L. Korneev , A.V. Katalnikov // Communication systems, television and radio broadcasting, 2008 - No. 1, p. 36-38).

Its disadvantage is the lack of an autonomous power source of high capacity, which allows for a long time to carry out autonomous work, as well as the lack of a display and a processor, which allows for preliminary data processing, it is only possible to send coordinate data via a communication channel.

The closest analogue is the system for the collection, processing, transmission and analysis of data “Motorola / Symbol MC3090R”, which includes coordinate determination units (using GPS), a processor with random access memory, a barcode scanner, a communication unit (WiFi, USB, RS-232), display (Center for Corporate Development - [Electron, resource]. - Access mode: http://www.cdc.ru/catalogs/citems/23 7.html)

The disadvantage of this device is the inability to determine geographic coordinates, as well as the inability to transmit information over wireless communication channels.

The task to which the claimed utility model is directed is to reduce the time during data collection, processing, transmission and analysis by preliminary structuring the information collected.

The technical result provided by the utility model is to reduce labor costs in the collection of processing and transmission of information.

To achieve this result, a system for collecting, processing, transmitting and analyzing data, comprising a unit for determining coordinates using a GPS receiver, a processor with random access memory, a barcode scanner, a communication unit, a display, is characterized by the fact that the system is equipped with a GLONASS receiver, a unit for data transmission via GSM networks, a database server, a barcode printer, a camera and a text data input device, while the GLONASS receiver is made in a single GLONASS / GPS unit with a GPS receiver, and the unit for data transmission On GSM networks, a camera, a text input device and GLONASS / GPS receivers are connected to a mobile data collection terminal.

The system is also characterized in that the barcode scanner, camera, data input device, GLONASS / GPS receivers and unit for transmitting data via GSM networks are assembled in a common housing and have an autonomous power supply that allows you to use the data collection device in the field.

The essence of the utility model is illustrated by drawings, where Fig. 1 shows a block diagram of a system, and Fig. 2 shows an algorithm for using the system for planning technical operation.

The system for collecting, processing, transmitting and analyzing data using GPS consists of a database server 1, a barcode printer 2, a data collection device consisting of a mobile data collection terminal 5, a barcode scanner 6, a GLONASS / GPS 4 receiver, unit for transmitting data over GSM networks with a receiver 3, a camera 7, a text data input device (for example, a keyboard) 8 (Fig. 1).

The data acquisition device is made in a single housing and has an autonomous power source that allows you to use the device in the field in the absence of stationary power sources. The data collection device is controlled by the processor of the mobile data collection terminal, which controls the interaction of devices and synchronization with a remote database server.

The system operates as follows.

Previously, for all objects of technical operation (OTE), records are created on the database server. For each OTE, a unique barcode is printed (on a barcode printer), with which it can be uniquely identified using a barcode scanner.

The manufactured barcodes are applied to objects of technical operation 9 (information about the state of which is regularly collected, in particular, information about the current technical condition).

The collection and transmission of information to the database server 1 is as follows. When the mobile data collection terminal 5 is turned on, the barcode scanner 6 is activated. After that, it becomes possible to scan the service barcode attached to the object (about which it is necessary to collect information). After scanning, the object is identified in the database. The terminal database is synchronized with the remote database using the GSM receiver 3. After identification in the database, the coordinates of the object are determined using GLONASS, if GPS coordinates cannot be determined, the GPS system is used. The operator is invited to photograph the object using the camera 7 and enter the attribute data using the data input device 8. Then it synchronizes with the database server by sending the collected information via the GSM network.

Using the described system reduces the time of collecting, pre-processing and sending information through the use of barcode scanning for preliminary identification of objects, the use of a device for entering attribute data and use for synchronization with the GSM network database in real time, and also allows you to determine the geographical the coordinates of the object, for subsequent entry into the database and use for analysis.

The possibility of using two different navigation systems GLONASS and GPS to determine the coordinates of objects increases the reliability of the described system when it is impossible to use one of the systems.

Claims (2)

1. A system for collecting, processing, transmitting and analyzing data using GPS, comprising a unit for determining coordinates using a GPS receiver, a processor with random access memory, a barcode scanner, a communication unit, a display, characterized in that it is equipped with a GLONASS receiver, a unit for transmitting data on GSM networks, a database server, a barcode printer, a camera and a text data input device, while the GLONASS receiver is made in a single GLONASS / GPS unit with a GPS receiver, and the unit for transmitting data over GSM networks, a camera, GLONASS / GPS data input device and receivers are connected to a mobile data collection terminal. 2. The system according to claim 1, characterized in that the barcode scanner, camera, data input device, GLONASS / GPS receivers and a unit for transmitting data via GSM networks are assembled in one housing and have an autonomous power supply that allows you to use the data collection device in the field conditions.