CN105682235A - Uplink data stream transmission method based on ISM low-speed internet of things communication system - Google Patents

Abstract

The invention discloses an uplink data stream transmission method based on an ISM low-speed internet of things communication system. The method comprises the steps of respectively authorizing ISM frequency bands to a data acquisition module, a first network management agent module, a second network management agent module and a network management module through an ISM authorizing center. Through the adoption of ultra-narrow band technology, kilometers and more signal coverage range is provided, the kilometers and more internet of things communication requirement can be solved, thereby reducing the cost of terminal hardware equipment and network, and the communication terminal is low in power consumption, the document transmission is performed on the ultra-narrow band, a frequency hopping algorithm is used for reducing the interference so as to enhance the security.

Description

Upstream transmission method based on ISM low speed Internet of Things communication system

Technical field

The invention belongs to wireless communication technology field. It is specifically related to a kind of upstream transmission method based on ISM low speed Internet of Things communication system.

Background technology

Existing wireless Internet of Things communication system, in-plant several meters of tens meters of categories, the ZIGBEE mainly used, WiFi technology, slightly a little further can only be the technology of mobile operator. Really, from present case, mobile operator can be confident. Their 2G, 3G even 4G network is the main bearer network of current Internet of Things. But their operation and communication cost are all significantly high, single base station signal coverage distance 1Km, power consumption is high, single base station number of access terminals is limited, and the high limitation of construction cost is unsuitable for Internet of Things and has the occasion that great amount of terminals needs to access, terminal unregulated power equal energy source scene is supplied, construction operation expense is low. And a kind of novel wireless Internet of Things communication base station provided by the invention be exactly should be present the indeterminable wireless Internet of Things communication of mobile communication technology and produce.

Novel wireless Internet of Things communication base station, solve that existing wireless communication base stations transmission range is near, operation construction cost costly, number of access terminals is few and terminal communication needs electrical network to power problem. And the remote 1～50km of wireless signal coverage distance, single base station terminal access quantity and access greatly the features such as quantity, capacity of resisting disturbance are strong, low in energy consumption up to million grades and promote that internet of things service is comprehensively fast-developing. But, it can be booted up operation detection in the development & production stage of base station transceiver by manufacturer in different operating environments, to make design or manufacturing deficiency occur as early as possible, before putting on market, substandard product is strangled in cradle, and provide solution, but the base station transceiver of different model is of a great variety, adopt conventional practical operation detection mode cannot meet the needs of production in enormous quantities at all.

Summary of the invention

The invention aims to overcome a kind of upstream transmission method based on ISM low speed Internet of Things communication system of above-mentioned not enough offer.

A kind of upstream transmission method based on ISM low speed Internet of Things communication system, comprises the following steps:

001. authorizes ISM band to data acquisition module the 200, first OAMAgent module the 300, second OAMAgent module 400 and network management module 500 respectively by ISM authorization center 100;

002. data acquisition module 200 acquisition terminal needs the data sent, and needs the data sent to be sent to network management module 500 terminal by the first OAMAgent module 300 and the second OAMAgent module 400;

003. network management module 500 needs the data sent to select a subcarrier according to the terminal received, detect whether that other terminal is in the information of carrying out transmission, if it has, be selected by next subcarrier, if it did not, just use this subcarrier to carry out information transmission;

004. network management module 500 uses subcarrier to send information to application provider.

Described network management module 500 includes Certificate Authority module 501, message processing module 502, information system module 503 and device management module 504: in described step 001, and information system module 503 and ISM authorization center 100 carry out networking; Judge that whether above-mentioned networking is successful, if it is turn next step, if otherwise returning previous step to continue the step of networking; After networking success, the ISM band of needs is sent to information system module 503 by message processing module 502 by Certificate Authority module 501, the ISM band of needs is sent authorization requests to ISM authorization center 100 by information system module 503, ISM authorization center 100 is authorized to Certificate Authority module 501 by information system module 503 and message processing module 502, and the whole frequency range authorized is decomposed into multiple subcarrier and sends standby to message processing module 502 by Certificate Authority module 501.

Described first OAMAgent module 300 is identical with the second OAMAgent module 400 structure, all including radio-frequency front-end 341, message managing module 342 and wan interface 343, the signal output part of described data acquisition module 200 realizes communicating with radio-frequency front-end 341 by protocol stack; In described step 002, terminal is needed the data sent to be respectively sent to the message managing module 342 in the first OAMAgent module 300 and the second OAMAgent module 400 by data acquisition module 200, and terminal is needed the data sent to be collected to message processing module 502 by respective wan interface 343 and WAN network transmission by described message managing module 342.

In described step 003, the data sent are needed to select a subcarrier in message processing module 502 according to the terminal received, information system module 503 has detected whether that other terminal is in the information of carrying out transmission, if had, message processing module 502 is selected by next subcarrier, if it did not, information system module 503 just uses this subcarrier to carry out information transmission to application provider.

This method make use of ultra-narrow band (UltraNarrowBand, UNB) technology, the signal cover with more than several kilometers is provided, the Internet of Things communication requirement of more than several kilometers can be solved, thus reducing the cost at terminal hardware and networking, and communication terminal is low in energy consumption, ultra-narrow band carries out data transmission, and adopt frequency hopping algorithm to reduce interference, to strengthen safety. In a subcarrier, owing to the frequency spectrum of the actually used transmission information of terminal only has the part of subcarrier spectrum, therefore, one terminal can automatically select one of them multicarrier communication (TAS-FDMA), and can have multiple terminal in transmission information in same subcarrier of same time, and collision will not become.

Accompanying drawing explanation

Fig. 1 is the system structure schematic diagram of the present invention.

Detailed description of the invention

Below in conjunction with specific embodiment, the present invention is further illustrated:

A kind of upstream transmission method based on ISM low speed Internet of Things communication system, comprises the following steps:

001. authorizes ISM band to data acquisition module the 200, first OAMAgent module the 300, second OAMAgent module 400 and network management module 500 respectively by ISM authorization center 100;

002. data acquisition module 200 acquisition terminal needs the data sent, and needs the data sent to be sent to network management module 500 terminal by the first OAMAgent module 300 and the second OAMAgent module 400;

003. network management module 500 needs the data sent to select a subcarrier according to the terminal received, detect whether that other terminal is in the information of carrying out transmission, if it has, be selected by next subcarrier, if it did not, just use this subcarrier to carry out information transmission;

004. network management module 500 uses subcarrier to send information to application provider.

Described network management module 500 includes Certificate Authority module 501, message processing module 502, information system module 503 and device management module 504: in described step 001, and information system module 503 and ISM authorization center 100 carry out networking; Judge that whether above-mentioned networking is successful, if it is turn next step, if otherwise returning previous step to continue the step of networking; After networking success, the ISM band of needs is sent to information system module 503 by message processing module 502 by Certificate Authority module 501, the ISM band of needs is sent authorization requests to ISM authorization center 100 by information system module 503, ISM authorization center 100 is authorized to Certificate Authority module 501 by information system module 503 and message processing module 502, and the whole frequency range authorized is decomposed into multiple subcarrier and sends standby to message processing module 502 by Certificate Authority module 501.

Described first OAMAgent module 300 is identical with the second OAMAgent module 400 structure, all including radio-frequency front-end 341, message managing module 342 and wan interface 343, the signal output part of described data acquisition module 200 realizes communicating with radio-frequency front-end 341 by protocol stack; In described step 002, terminal is needed the data sent to be respectively sent to the message managing module 342 in the first OAMAgent module 300 and the second OAMAgent module 400 by data acquisition module 200, and terminal is needed the data sent to be collected to message processing module 502 by respective wan interface 343 and WAN network transmission by described message managing module 342.

In described step 003, the data sent are needed to select a subcarrier in message processing module 502 according to the terminal received, information system module 503 has detected whether that other terminal is in the information of carrying out transmission, if had, message processing module 502 is selected by next subcarrier, if it did not, information system module 503 just uses this subcarrier to carry out information transmission to application provider.

This method make use of ultra-narrow band (UltraNarrowBand, UNB) technology, the signal cover with more than several kilometers is provided, the Internet of Things communication requirement of more than several kilometers can be solved, thus reducing the cost at terminal hardware and networking, and communication terminal is low in energy consumption, ultra-narrow band carries out data transmission, and adopt frequency hopping algorithm to reduce interference, to strengthen safety. In a subcarrier, owing to the frequency spectrum of the actually used transmission information of terminal only has the part of subcarrier spectrum, therefore, one terminal can automatically select one of them multicarrier communication (TAS-FDMA), and can have multiple terminal in transmission information in same subcarrier of same time, and collision will not become.

This system at secure context, then provides information encryption and implicit authentication, adopts and shares key mechanism, the information of transmission to be encoded by 128 bit AES algorithms.

The system of a kind of wireless Internet of Things the communication above embodiment of the present invention provided is described in detail, principles of the invention and embodiment are set forth by multiple technologies used herein and specific case, and the explanation of above example is only intended to help to understand method and the core concept thereof of the present invention; Simultaneously for one of ordinary skill in the art, according to the thought of the present invention, all will change in specific embodiments and applications, in sum, this specification content should not be construed as limitation of the present invention.

Claims (4)

1. the upstream transmission method based on ISM low speed Internet of Things communication system, it is characterised in that comprise the following steps:

001. authorizes ISM band to data acquisition module (200), the first OAMAgent module (300), the second OAMAgent module (400) and network management module (500) respectively by ISM authorization center (100);

002. data acquisition module (200) acquisition terminal needs the data sent, and needs the data sent to be sent to network management module (500) terminal by the first OAMAgent module (300) and the second OAMAgent module (400);

003. network management module (500) needs the data sent to select a subcarrier according to the terminal received, detect whether that other terminal is in the information of carrying out transmission, if it has, be selected by next subcarrier, if it did not, just use this subcarrier to carry out information transmission;

004. network management module (500) uses subcarrier to send information to application provider.

2. the upstream transmission method based on ISM low speed Internet of Things communication system according to claim 1, it is characterized in that described network management module (500) includes Certificate Authority module (501), message processing module (502), information system module (503) and device management module (504): in described step 001, information system module (503) and ISM authorization center (100) carry out networking, judge that whether above-mentioned networking is successful, if it is turn next step, if otherwise returning previous step to continue the step of networking, after networking success, the ISM band of needs is sent to information system module (503) by message processing module (502) by Certificate Authority module (501), the ISM band needed is sent authorization requests to ISM authorization center (100) by information system module (503), ISM authorization center (100) is authorized to Certificate Authority module (501) by information system module (503) and message processing module (502), the whole frequency range authorized is decomposed into multiple subcarrier and sends standby to message processing module (502) by Certificate Authority module (501).

3. according to claim 2 based on the upstream transmission method of ISM low speed Internet of Things communication system, it is characterized in that described first OAMAgent module (300) is identical with the second OAMAgent module (400) structure, all including radio-frequency front-end (341), message managing module (342) and wan interface (343), the signal output part of described data acquisition module (200) realizes communicating with radio-frequency front-end (341) by protocol stack; In described step 002, terminal is needed the data sent to be respectively sent to the message managing module (342) in the first OAMAgent module (300) and the second OAMAgent module (400) by data acquisition module (200), and terminal is needed the data sent to be collected to message processing module (502) by respective wan interface (343) and WAN network transmission by described message managing module (342).

4. according to claim 3 based on the upstream transmission method of ISM low speed Internet of Things communication system, it is characterized in that in described step 003, the data sent are needed to select a subcarrier in message processing module (502) according to the terminal received, information system module (503) has detected whether that other terminal is in the information of carrying out transmission, if had, message processing module (502) is selected by next subcarrier, if it did not, information system module (503) just uses this subcarrier to carry out information transmission to application provider.