CN217386353U - Open source information collecting system - Google Patents

Abstract

An open source information collecting system comprises an information transmission module, a positioning module and a controller, wherein the rear stage of the system is externally connected with a memory and a CPU for data processing, the front stage of the system is externally connected with a GPS antenna, the controller is connected with the CPU and the memory by means of interface control, the positioning module is used for determining the specific position of the system, the input end of the positioning module is connected with the GPS antenna by means of an interface, and the output end of the positioning module is connected with the controller; the information transmission module receives information transmitted from the outside by means of the antenna, the information transmission module is connected with an external memory by means of an information transmission line, and a controlled end of the information transmission module is connected with the controller.

Description

Open source information collecting system

Technical Field

The utility model relates to an information processing technology field specifically is an open source information collection system.

Background

Open Source (Open Source) is known as Open Source code. The open source software in the market is endless, and many people may consider the most obvious characteristic of the open source software to be free, but the most obvious characteristic of the open source software is not the same, and the open source software is opened, that is, anyone can obtain the source code of the software, modify and learn the software, and even redistribute the software. The open source system has two groups of users facing the open source system, namely programmers who are most concerned about source codes and cannot develop and utilize the source codes for the second time; and the other is that common terminal users only care that the software function can not be strong enough. The open source system is characterized in that the open source system is open, is to accept, contain and develop, seek for coexistence and existence, mutually benefit and win, and is the essence of the open source.

In the field of AI learning, the open source of information can provide more information sources for a learning platform and can arrange and analyze more information, so that the learning capability and the data analysis capability of an algorithm can be enhanced, the existing IA learning generally faces fewer object groups, more faces internal workers, the transmission of the information is mostly carried out in a specific range through wired transmission, each acquisition device has a definite service area, and therefore no special requirement is required for acquiring the position.

SUMMERY OF THE UTILITY MODEL

The utility model provides an open source information collection system has solved the problem that open source information distribution system can't realize the location, has the characteristics that information transmission efficiency is high, can carry out accurate location to the distribution system.

The technical scheme of the utility model as follows:

an open source information collecting system comprises an information transmission module, a positioning module and a controller, wherein the rear stage of the system is externally connected with a memory and a CPU for data processing, the front stage of the system is externally connected with a GPS antenna, the controller is connected with the CPU and the memory by means of interface control, the positioning module is used for determining the specific position of the system, the input end of the positioning module is connected with the GPS antenna by means of an interface, and the output end of the positioning module is connected with the controller;

the information transmission module receives information transmitted from the outside by means of an antenna, the information transmission module is connected with an external memory by means of an information transmission line, and the controlled end of the information transmission module is connected with the controller.

As a further optimization of the present solution, the controller is connected to the information transfer module by means of a driving module, and the driving module is configured to boost a voltage and enhance a driving capability of the controller to the information transfer module.

As the further optimization of this scheme, the information transfer module includes antenna IPEX, wifi chip U1 and switch chip U2, wifi chip U1's ANT pin is connected antenna IPEX, wifi chip U1's GND pin ground connection, wifi chip U1's VDD1 pin and VDD2 pin connecting voltage source, wifi chip U1, wifi chip U1's TX pin is as the RX output end of information transfer module, wifi chip U1's RX pin process switch chip U2 conduct the controlled end of information transfer module, wifi chip U1's pin RST connects as the end that resets the controller.

As a further optimization of the scheme, a VCC pin of the switch chip U2 is connected to a voltage source VCC, and is grounded through a diode D1 and a switch KEY2 which are connected in series, and N.C of the switch chip U2 serves as a TX input terminal of the information transfer module.

As a further optimization of the scheme, the driving module comprises a chip U4, the V + pin of the chip U4 is connected with a +5V voltage source through an electrolytic capacitor C6, an electrolytic capacitor C2 is arranged between the C1+ pin of the chip U4 and the C1-pin of the chip U4, an electrolytic capacitor C4 is arranged between the C2+ pin of the chip U4 and the C2-pin of the chip U4, the V-pin of the chip U4 is grounded through an electrolytic capacitor C3, the T1OUT pin of the chip U4 is connected with the TX input end of the information transfer module, the pin R1IN of the chip U4 is connected to the output of the RX of the information transfer module, the R1OUT pin of the chip U4 is used as the RXD output end of the driving module and is connected with the signal input pin of the controller, the T1IN pin of the chip U4 is used as a TXD input end of the driving module and is connected with a signal output pin of the controller.

As a further optimization of the scheme, the positioning module includes a GPS chip U5 and an interface CN1, an RF _ IN pin of the GPS chip U5 is connected to the interface CN1, a V _ ANT pin of the GPS chip U5 is used for supplying power to a GPS antenna, a V _ BCKP pin of the GPS chip U5 is connected to a voltage source, a VCC pin and a D _ SEL pin of the GPS chip U5 are connected to the voltage source, an RXD pin and a TXD pin of the GPS chip U5 are respectively connected to be respectively used as an input and output end of the positioning module and connected to a controller, and a GND pin of the GPS chip U5 is grounded.

As a further optimization of the scheme, a V _ ANT pin of the GPS chip U5 is connected to emitters of a transistor Q1 and a transistor Q2 which are connected in parallel, collectors of the transistor Q1 and the transistor Q2 are grounded through resistors R7 and R6, emitters of the transistor Q1 and the transistor Q2 are connected to a GPS voltage source through a resistor R5, an EXTINT1 pin of the GPS chip U5 is supplied with power by a resistor R8 bit GPS, and an EXTINT1 pin of the GPS chip U5 is connected to a collector of the transistor Q1.

The utility model discloses a theory of operation and beneficial effect do:

the positioning module has the advantages that the GPS antenna is connected with the positioning module through the interface, the GPS signal can be received, the positioning of the current management system is achieved, the specific position of each corresponding information collecting station in the information set can be conveniently obtained according to the GPS signal, the information transmitting module can achieve information receiving and sending through the wireless network, and the method is more convenient compared with line communication. The controller adopts a single chip microcomputer, the input ends of the positioning module and the information transmission module are connected with the signal output end of the single chip microcomputer, and the signal output end of the single chip microcomputer controls the controlled end connected with the positioning module and the information transmission module. Meanwhile, the controller can be externally connected with devices such as a computer, a memory and the like by virtue of an interface and is used for processing and storing data at a later stage. The system can conveniently collect external open source data, and confirm the time and the place of the collected information, so that the collected information is distributed to a computer externally connected at the later stage for data analysis.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a connection block diagram of the present application;

FIG. 2 is a schematic circuit diagram of an information delivery module of the present application;

FIG. 3 is a schematic circuit diagram of a positioning module of the present application;

fig. 4 is a schematic circuit diagram of a driving module according to the present application.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive work, are related to the scope of the present invention.

An open source information collecting system comprises an information transmission module, a positioning module and a controller, wherein the rear stage of the system is externally connected with a memory and a CPU for data processing, the front stage of the system is externally connected with a GPS antenna, the controller is connected with the CPU and the memory by means of interface control, the positioning module is used for determining the specific position of the system, the input end of the positioning module is connected with the GPS antenna by means of an interface, and the output end of the positioning module is connected with the controller; the information transmission module receives information transmitted from the outside by means of an antenna, the information transmission module is connected with an external memory by means of an information transmission line, and the controlled end of the information transmission module is connected with the controller. The controller is connected with the information transmission module through a driving module, and the driving module is used for increasing voltage and enhancing the driving capability of the controller on the information transmission module.

The controller in this application adopts the singlechip, for example 51 singlechips can, the P3.0 pin and P3.1 pin and the IO mouth of singlechip are as input/output and signal interaction pin and other module or external interface signal connection, this connected mode adopt the current communication connection's of singlechip can, the description of singlechip all has the record.

In a specific embodiment, as shown in fig. 1 of the specification, the information transfer module includes an antenna IPEX, a wifi chip U1 and a switch chip U2, the ANT pin of the wifi chip U1 is connected to the antenna IPEX, the GND pin of the wifi chip U1 is grounded, the VDD1 pin and the VDD2 pin of the wifi chip U1 are connected to a voltage source, the wifi chip U1, the TX pin of the wifi chip U1 is used as the RX output end of the information transfer module, the RX pin of the wifi chip U1 passes through the switch chip U2 as the controlled end of the information transfer module, and the RST pin of the wifi chip U1 is connected to the controller as the reset end. The VCC pin of the switch chip U2 is connected with a voltage source VCC, and is grounded through a diode D1 and a switch KEY2 which are connected in series, and N.C of the switch chip U2 is used as the TX input end of the information transfer module. The model of the wifi chip used is HLK-M30-C. The connection method can be the method, and the switch sucker can be SN74L according to the connection method described in the specification of the chip.

The driving module comprises a chip U4, wherein a V + pin of the chip U4 is connected with a +5V voltage source through an electrolytic capacitor C6, an electrolytic capacitor C2 is arranged between a C1+ pin of the chip U4 and a C1-pin of the chip U4, an electrolytic capacitor C4 is arranged between a C2+ pin of the chip U4 and a C2-pin of the chip U4, a V-pin of the chip U4 is grounded through an electrolytic capacitor C3, a T1OUT pin of the chip U4 is connected with a TX input end of the information transfer module, an R1IN pin of the chip U4 is connected with an RX output end of the information transfer module, an R1OUT pin of the chip U4 is used as an RXD output end of the driving module and is connected with a signal input pin of the controller, and a T1IN pin of the chip U4 is used as a TXD input end of the driving module and is connected with a signal output pin of the controller. The driving module is used for raising voltage and driving the information transmission module, wherein the model of the chip U4 comprises MAX 232.

The positioning module comprises a GPS chip U5 and an interface CN1, an RF _ IN pin of the GPS chip U5 is connected with the interface CN1, a V _ ANT pin of the GPS chip U5 is used for supplying power to a GPS antenna, a V _ BCKP pin of the GPS chip U5 is connected with a voltage source, a VCC pin and a D _ SEL pin of the GPS chip U5 are connected with the voltage source, an RXD pin and a TXD pin of the GPS chip U5 are respectively connected with an input and output end of the positioning module to be connected with a controller, and a GND pin of the GPS chip U5 is grounded. The pin V _ ANT of the GPS chip U5 is connected with the emitting electrodes of a triode Q1 and a triode Q2 which are connected in parallel, the collecting electrodes of the triode Q1 and the triode Q2 are grounded through resistors R7 and R6 respectively, the emitting electrodes of the triode Q1 and the triode Q2 are connected with a GPS voltage source through a resistor R5, the pin EXTINT1 of the GPS chip U5 is supplied with power through a resistor R8 bit GPS, and the pin EXTINT1 of the GPS chip U5 is connected with the collecting electrode of the triode Q1.

The GPS chip adopts LEA-M8T-0, and the connection mode of the instruction in the chip can be adopted. The output and input ports of the above modules may be matched to the controller.

In various embodiments, the hardware implementation of the technology may directly employ existing intelligent devices, including but not limited to industrial personal computers, PCs, smart phones, handheld stand-alone machines, floor stand-alone machines, and the like. The input device preferably adopts a screen keyboard, the data storage and calculation module adopts the existing memory, calculator and controller, the internal communication module adopts the existing communication port and protocol, and the remote communication adopts the existing gprs network, the web and the like.

It will be apparent to those skilled in the art that, for convenience and brevity of description, only the above-mentioned division of the functional units and modules is illustrated, and in practical applications, the above-mentioned function distribution may be performed by different functional units and modules according to needs, that is, the internal structure of the apparatus is divided into different functional units or modules, so as to perform all or part of the functions described above. Each functional unit and module in the embodiments may be integrated in one processing unit, or each unit may exist alone physically, or two or more units are integrated in one unit, and the integrated unit may be implemented in a form of hardware, or in a form of software functional unit. In addition, specific names of the functional units and modules are only for convenience of distinguishing from each other, and are not used for limiting the protection scope of the present application. The specific working processes of the units and modules in the system may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again. Units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

Each functional unit in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit. The integrated modules/units, if implemented in the form of software functional units and sold or used as separate products, may be stored in a computer readable storage medium. Based on such understanding, the present invention may also realize all or part of the processes in the methods of the above embodiments by using a computer program to instruct related hardware to complete, and the computer program may be stored in a computer readable storage medium, and when the computer program is executed by a processor, the steps of the above embodiments of the methods may be realized. Wherein the computer program comprises computer program code, which may be in the form of source code, object code, an executable file or some intermediate form, etc. The computer readable medium may include: any entity or device capable of carrying computer program code, recording medium, U-disk, removable hard disk, magnetic disk, optical disk, computer Memory, Read-Only Memory (ROM), Random Access Memory (RAM), electrical carrier wave signals, telecommunications signals, software distribution media, and the like. It should be noted that the computer readable medium may contain other components which may be suitably increased or decreased as required by legislation and patent practice in jurisdictions, for example, in some jurisdictions, in accordance with legislation and patent practice, the computer readable medium does not include electrical carrier signals and telecommunications signals.

The above-mentioned embodiments are only used for illustrating the technical solution of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present invention, and are intended to be included within the scope of the present invention.

Claims (7)

1. An open source information collecting system comprises an information transmission module, a positioning module and a controller, wherein the back stage of the system is externally connected with a memory and a CPU for data processing, the front stage of the system is externally connected with a GPS antenna, the controller is connected with the CPU and the memory by an interface control, and the open source information collecting system is characterized in that,

the positioning module is used for determining the specific position of the system, the input end of the positioning module is connected with the GPS antenna by an interface, and the output end of the positioning module is connected with the controller;

the information transmission module receives information transmitted from the outside by means of an antenna, the information transmission module is connected with an external memory by means of an information transmission line, and the controlled end of the information transmission module is connected with the controller.

2. The open source intelligence information gathering system as recited in claim 1, wherein the controller is connected to the information delivery module via a driving module, the driving module is configured to increase a voltage and enhance a driving capability of the controller to the information delivery module.

3. The open source information collecting system of claim 2, wherein the information transfer module comprises an antenna IPEX, a wifi chip U1 and a switch chip U2, the ANT pin of the wifi chip U1 is connected to the antenna IPEX, the GND pin of the wifi chip U1 is grounded, the VDD1 pin and the VDD2 pin of the wifi chip U1 are connected to a voltage source, the wifi chip U1, the TX pin of the wifi chip U1 is used as the RX output end of the information transfer module, the RX pin of the wifi chip U1 passes through the switch chip U2 to be the controlled end of the information transfer module, and the RST pin of the wifi chip U1 is connected to the controller as the reset end.

4. The open source intelligence information gathering system as claimed in claim 3, wherein the VCC pin of the switch chip U2 is connected to VCC, and is connected to ground through a series connected diode D1 and switch KEY2, and N.C of the switch chip U2 is used as the TX input terminal of the information transfer module.

5. The open source intelligence information gathering system as recited in claim 4, the driving module comprises a chip U4, the V + pin of the chip U4 is connected with a +5V voltage source through an electrolytic capacitor C6, an electrolytic capacitor C2 is arranged between the C1+ pin of the chip U4 and the C1-pin of the chip U4, an electrolytic capacitor C4 is arranged between the C2+ pin of the chip U4 and the C2-pin of the chip U4, the V-pin of the chip U4 is grounded through an electrolytic capacitor C3, the T1OUT pin of the chip U4 is connected with the TX input end of the information transfer module, the pin R1IN of the chip U4 is connected to the output of the RX of the information transfer module, the R1OUT pin of the chip U4 is used as the RXD output end of the driving module and is connected with the signal input pin of the controller, the T1IN pin of the chip U4 is used as a TXD input end of the driving module and is connected with a signal output pin of the controller.

6. The open source information collecting system of claim 1, wherein the positioning module comprises a GPS chip U5 and an interface CN1, the RF _ IN pin of the GPS chip U5 is connected to the interface CN1, the V _ ANT pin of the GPS chip U5 is used to supply power to the GPS antenna, the V _ BCKP pin of the GPS chip U5 is connected to a voltage source, the VCC pin and D _ SEL pin of the GPS chip U5 are connected to the voltage source, the RXD pin and TXD pin of the GPS chip U5 are respectively connected to serve as the input/output terminal of the positioning module to be connected to the controller, and the GND pin of the GPS chip U5 is grounded.

7. The open-source intelligence information gathering system as claimed in claim 6, wherein the pin V _ ANT of the GPS chip U5 passes through the emitter of a transistor Q1 and a transistor Q2 connected in parallel, the collectors of the transistor Q1 and the transistor Q2 are grounded through resistors R7 and R6, respectively, the emitters of the transistor Q1 and the transistor Q2 are connected to a GPS voltage source through a resistor R5, the pin EXTINT1 of the GPS chip U5 is GPS-powered through a resistor R8, and the pin EXTINT1 of the GPS chip U5 is connected to the collector of the transistor Q1.

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