KR100913480B1 - Multiple wireless sensor network system and networking method for the same - Google Patents

Abstract

By collecting the environmental information related to the optical coaxial mixed network through a separate sensor network and transmitting the monitoring result to the control means, there is no need to construct a sensor network system individually, and using the installed optical coaxial mixed network Disclosed are a multiple wireless sensor network system and a networking method thereof capable of comprehensively configuring and monitoring a sensor network. The multi-wireless sensor network system according to the present invention includes sensing means for collecting environmental information associated with an optical coaxial mixed network, monitoring means for generating a monitoring result for the collected environmental information, and the generated monitoring result. And information transmitting means for transmitting to the control means.

Wireless Sensor Networks, TAB, CLC Modems, Optical Coaxial Mixed Networks, Monitoring

Description

MULTIPLE WIRELESS SENSOR NETWORK SYSTEM AND NETWORKING METHOD FOR THE SAME}

The present invention collects environmental information related to the optical coaxial mixed network through a separate sensor network and transmits the monitoring result to the control means, so that the installed optical coaxial mixed network can be used without having to individually construct a sensor network system. The present invention relates to a multiple wireless sensor network system and a networking method thereof capable of comprehensively configuring and monitoring the separate sensor network.

Optical Fiber Coaxial (HFC) is an optical cable, that is, a network composed of an optical fiber and a coaxial cable, and is an optical communication network unit from a broadcasting / communication company (or a comprehensive wired broadcasting station, SO). Data signals such as the Internet, cable TV, crime prevention, disaster prevention, remote meter reading, and automatic control can be transmitted by using optical cables up to (hereinafter referred to as ONU) and coaxial cables from ONU to subscribers (or home terminals). Refers to a broadband transmission network.

However, in the conventional optical coaxial mixed network, a separate service is provided when laying cabling in the ground or on the ground due to a lack of means for inputting and outputting information in the middle of a transmission line from a broadcasting / communication station to a subscriber. There was no way to do it.

Accordingly, in the present invention, when providing a service to a subscriber through the optical coaxial mixed network, the branch point of the optical coaxial mixed network to provide a more diverse service to the subscriber by using information received in real time from a separate sensor network A technique for configuring a TAB or CLC modem located in the AP as an AP of different sensor networks is proposed.

The present invention has been made to solve the above problems, to provide a variety of services to subscribers using information received in real time from a separate sensor network when providing services to subscribers through an optical coaxial mixed network. It is an object of the present invention to provide a multiple wireless sensor network system and a networking method for configuring a TAB or a CLC modem located at a branch point of an optical coaxial mixed network as an AP of different sensor networks.

In addition, the present invention collects the environmental information associated with the optical coaxial mixed network through a separate sensor network and transmits the monitoring result generated to the control means, so that the installed optical coaxial mixed network can be installed without having to individually construct a sensor network system. An object of the present invention is to provide a multi-wireless sensor network system and a networking method thereof capable of comprehensively configuring and monitoring the separate sensor network.

In addition, the present invention transmits the processing information generated by using the information collected from the different sensor network, through the optical coaxial mixed network to the organization or the selected person in need, synergistic effect through the optical coaxial mixed network It is an object of the present invention to provide a multiple wireless sensor network system and a networking method thereof.

In addition, the present invention by comprehensively managing the separate individual sensor network configured to be separated in each region through the optical coaxial mixed network, while reducing the cost of building the individual sensor network system, it is possible to provide a variety of information in real time An object of the present invention is to provide a multi-radio sensor network system and a networking method thereof.

In addition, the present invention is a multi-wireless sensor network system and a networking method for enabling the integrated management of different sensor networks such as air pollution sensor network, water pollution sensor network, traffic information collection sensor network through one optical coaxial mixed network. The purpose is to provide.

In addition, in the case of the CATV broadcasting station transmitting a broadcast signal through the optical coaxial mixed network, the same broadcast signal is transmitted to each region, and at the same time, comprehensively provide the environmental monitoring results of each region received through the sensor network. It is an object of the present invention to provide a multiple wireless sensor network system and a networking method thereof.

In order to achieve the object of the present invention as described above, the multiple wireless sensor network system according to an embodiment of the present invention, the environmental information associated with the optical coaxial mixed network, the sensor network network other than the optical coaxial mixed network Sensing means for collecting through, monitoring means for generating a monitoring result for the collected environmental information, and information transmission means for transmitting the generated monitoring results to a control means.

In addition, in the multiple wireless sensor networking method implemented by the multiple wireless network system according to an embodiment of the present invention, in the sensing means of the multiple wireless network system, the environment information associated with the optical coaxial mixed network, the optical coaxial mixed network Collecting through a separate sensor network network; and generating monitoring results of the collected environmental information in the monitoring means of the multiple wireless network system; and in the information transmitting means of the multiple wireless network system, And transmitting the generated monitoring result to a control means.

According to the present invention, by collecting the environmental information associated with the optical coaxial mixed network through a separate sensor network and transmitting the monitoring result to the control means, there is no need to individually build the sensor network system, the installed optical coaxial mixed network By using this configuration, the separate sensor network can be comprehensively configured and monitored.

In addition, according to the present invention, when providing a service to a subscriber through an optical coaxial mixed network, it is possible to provide a more diverse service to a subscriber by using information received in real time from a separate sensor network.

In addition, according to the present invention, by processing the information generated by using the information collected from the different sensor network, through the optical coaxial blending network to the organization or a selected person in need, synergy through the optical coaxial blending network Can produce effects.

In addition, according to the present invention, by separately managing a separate individual sensor network configured to be separated in each region through the optical coaxial mixed network, while reducing the cost of building the individual sensor network system, a variety of information in real time It can be provided.

In addition, according to the present invention, it is possible to integrate and manage different sensor networks such as air pollution sensor network, water pollution sensor network, traffic information collection sensor network through one optical coaxial mixed network.

In addition, according to the present invention, in the case of the CATV broadcasting station transmitting the broadcast signal through the optical coaxial mixed network, while transmitting the same broadcast signal to each region, the environmental monitoring results of each region received through the sensor network comprehensively It can be provided.

Hereinafter, a multi-wireless sensor network system and a networking method thereof according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating a configuration of a multiple wireless sensor network system according to an embodiment of the present invention.

The multiple wireless sensor network system 100 includes a sensing means 110, a monitoring means 120, an information transmission means 130, a control means 140, a condition determination means 150, and a relay protocol means 160, a power supply. It may comprise a means (170).

The sensing means 110 serves to collect environmental information associated with the optical coaxial mixing network.

Sensing means 110 may be detected through a separate sensor network, such as temperature information, air pressure, weather information such as precipitation, air pollution, environmental pollution information such as water pollution, traffic traffic information, pollutant emission or waste dumping It can collect environmental information such as surveillance information and unmanned crime prevention information.

At this time, the environmental information associated with the optical coaxial mixed network is a sensor network located within a range set from, for example, TAB located at a branch point in the optical coaxial mixed network or a CLC modem in the optical coaxial mixed network among the environmental information. It may be sensing information that can be detected through the network, sensing information related to data provided through the optical coaxial mixed network, or sensing information requested from related organizations such as the Ministry of Environment and the Traffic Management Corporation and selected persons. have.

The sensing unit 110 may collect the environmental information through a separate coaxial network and a separate sensor network.

For example, the sensing unit 110 may collect environmental information through an optical coaxial mixed network and a different sensor network such as an air pollution sensor network, a water pollution sensor network, and a traffic information collection sensor network. The sensor network system 100 may integrate and manage each sensor network through one optical coaxial mixed network.

The sensing means 110 transmits a sensing signal for sensing environmental information to a sensor terminal means located within the set coverage of the sensing means 110 or a separate sensor network network, and the environmental information detected by the transmitted sensing signal. May be received and collected from the sensor terminal means or the separate sensor network.

The sensing means 110 may be included in a TAB located at a branch point in the optical coaxial mixed network, or in a CLC modem in the optical coaxial mixed network, and the sensing means 110 is located at a branch point in the optical coaxial mixed network. It may be a TAB, or a picocell unit sensor central node, included in the CLC modem in the optical coaxial mixed network.

Sensing means 110 is a TAB that serves to branch the coaxial cable to provide data to more subscribers on the transmission line from the broadcasting / communication station of the optical coaxial mixed network to the subscriber (or home terminal) via the ONU, Or it may be included in the CLC modem which serves to convert the data transmitted along the coaxial cable into a signal of a form suitable for the terminal means of the subscriber.

In addition, the branching point in the optical coaxial mixing network including the sensing means 110 may be determined in consideration of the coverage of the sensing means 110.

In other words, in the present invention, even if the sensing means 110 is not included in all TABs or CLC modems in the optical coaxial network, the coverage of the sensing means 110, that is, the arrival of the sensing signal transmitted from the sensing means 110. It can be configured to selectively include only the TAB, or CLC modem that is considered to not overlap the possible range, it is possible to obtain a cost savings.

The monitoring means 120 serves to generate a monitoring result for the collected environmental information.

For example, when the air pollution sensor network is included within a radius of 5 km from the TAB in the optical coaxial mixing network, the sensing means 110 may include fine dust (PM ₁₀ ) concentration, nitrogen dioxide (NO ₂ ) concentration, and ozone ( O ₃ ) a sensing signal for measuring the concentration may be transmitted to the air pollution sensor network. In addition, the monitoring means 120 in response to the sensing signal is an environment such as the concentration of fine dust (PM ₁₀ ), nitrogen dioxide (NO ₂ ), and ozone (O ₃ ) concentration received from the air pollution sensor network. Using the information, the ratio of the excess concentration value to the concentration value corresponding to the normal range of each substance is calculated, and as a result of the monitoring, fine dust (PM ₁₀ ) pollution, nitrogen dioxide (NO ₂ ) pollution, and ozone (O) are calculated. ₃ ) it can produce pollution levels.

The information transmitting means 130 serves to transmit the generated monitoring result to the control means 140.

For example, as described above, when monitoring results such as fine dust (PM ₁₀ ), nitrogen dioxide (NO ₂ ), and ozone (O ₃ ) pollution and water pollution are generated, the information transmission means 130. ) Converts each generated monitoring result into a signal of a type suitable for the transmission medium of the optical coaxial mixed network so that the air pollution sensor network and the water pollution sensor network can be managed together through the optical coaxial mixed network. To the control means 140 from the TAB or CLC modem.

The control means 140 serves to deliver the received monitoring result to the selected person concerned with the environmental information.

In other words, the control unit 140 monitors environmental information such as monitoring results such as fine dust (PM ₁₀ ) pollution, nitrogen dioxide (NO ₂ ) pollution, ozone (O ₃ ) pollution, and water pollution from the TAB or CLC modem. It can be forwarded to selected stakeholders, for example, the Ministry of Environment, to air pollution and water pollution management personnel.

In addition, the control means 140 may provide the processing information generated by using the monitoring result to the subscriber of the optical coaxial mixed network. Such control means 140 may be included in the broadcast / communication station of the optical coaxial mixed network. When CATV broadcast data is transmitted to the subscriber from the broadcasting / communication company using the optical coaxial mixing network, the control unit 140 may include the monitoring result to provide the subscriber with the processed CATV broadcast data.

The condition determining unit 150 may determine a collection condition for the sensing unit 110, and the sensing unit 110 may selectively collect environmental information of an attribute corresponding to the determined collection condition.

For example, when the fine dust PM ₁₀ concentration, the nitrogen dioxide (NO ₂ ) concentration, and the ozone (O ₃ ) concentration are set as the collection conditions for the sensing means 110 in the condition determining means 150, the sensing means ( 110 may selectively collect environmental information of an attribute corresponding to the determined collection condition from an air pollution sensor network.

In addition, when a request for changing a sensing range of a separate sensor network is generated from the control unit 140 in response to the selected person or external input associated with the environment information, the condition determining unit 150 determines the collection condition. By changing, the sensing range adjustment effect of the separate sensor network can be obtained. For example, if you want to change the sensing range through the indoor temperature sensor network from '20 degrees Celsius or less 'to '10 degrees Celsius or less', the control means 140 may condition the sensing range of the indoor temperature sensor network. Request to decision means 150. In response to the change request, the condition determining unit 150 collects only the environmental information that satisfies the collection condition of '10 degrees Celsius or less 'among the environmental information received when the sensing range is '20 degrees Celsius or less'. The sensing range of the temperature sensor network can be adjusted.

The relay protocol means 160 plays a role of transmitting a sensing signal to the separate sensor network that is located outside the coverage when the separate sensor network is located outside the set coverage of the sensing means 110.

As described above, the sensing means 110 transmits a sensing signal for sensing environmental information to a sensor terminal means located within the set coverage of the sensing means 110 or a separate sensor network network, and transmits the sensing signal to the transmitted sensing signal. Environmental information detected by the sensor may be received from the sensor terminal means or the separate sensor network network and collected. However, when a separate sensor network is located in addition to the set coverage of the sensing means 110, the relay protocol means 160 may extend the set coverage of the sensing means 110. Sensing signals can also be transmitted to the sensor network where it is located to collect environmental information.

The power supply means 170 is at least one of the sensing means 110, the monitoring means 120, or the information transmission means 130, and serves to provide power through the optical coaxial mixed network.

The power supply unit 170 is connected to the TAB, the sensing means included in the TAB in the optical coaxial mixed network, the power required to collect environmental information from a separate sensor network, generate a monitoring result, and transmit a monitoring result. 110, the monitoring means 120, or the information transmission means 130. In addition, when the sensing means 110, the monitoring means 120, and the information transmission means 130 is included in the CLC modem, the power supply means 170 may supply power through the CLC modem in the optical coaxial mixed network, Through this, it is possible to manage the sensor network in a certain area.

2 is a diagram illustrating the overall network configuration of a multiple wireless sensor network system using an optical coaxial mixed network according to an embodiment of the present invention.

In Fig. 2, the control means 211 and the condition determination means 212 included in the broadcasting / communication station 210 of the optical coaxial mixed network and the condition determination means from the separate sensor network network included in the TAB 230 are shown. Sensing means 231 for collecting the environmental information of the attribute corresponding to the collection condition determined in 212, the monitoring means 232 for generating a monitoring result using the environmental information, the generated monitoring result via the ONU 220 The multiple wireless sensor network system according to the present invention is shown, which consists of information transmission means 233 for transmission and upload to control means 211.

In this case, the sensing means 231, the monitoring means 232, and the information transmitting means 233 may be included in the TABs 230, 240, 250, and 280 determined in consideration of the sensing coverage of the sensing means 231, or It may be included in the CLC modem 290.

When a separate sensor network is located outside the set coverage of the sensing means 231, the relay protocol means 270 collects environmental information by transmitting a sensing signal to a sensor network located outside the coverage of the sensing means 231. can do. In addition, when the separation distance between each TAB is set smaller than the sensing coverage of the sensing means 231 in each TAB, such as the TAB 230 and the TAB 280, the relay protocol means 270 is connected to a separate sensor network. It is possible to extend the sensing coverage by enabling the sensing signal transmission.

The control means 211 included in the broadcasting / communication station 210 of the optical coaxial mixed network is generated by using the monitoring results transmitted from the respective TABs 230, 240, 250, and 280, or the CLC modem 290. CATV broadcast data including processing information, for example, environmental pollution information or traffic volume information, may be provided to the subscriber 270 through the optical coaxial mixing network.

3 is a diagram illustrating an example of collecting environmental information through a separate sensor network in a multiple wireless sensor network system according to an embodiment of the present invention.

As shown in FIG. 3, when there is a region 314 where the sensing coverage 312 of the sensing means 310 and the separate sensor network 313 overlap, the TAB 311 of the optical coaxial mixed network exists. The included sensing means 310 may collect environment information by transmitting a sensing signal having an attribute corresponding to the collection condition determined by the condition determination means 350.

The multi-wireless sensor network system generates a monitoring result by using the environmental information collected through the monitoring means 320, and transmits the monitoring result generated by the information transmitting means 330 to the control means 340 to control the control means. (340) to be delivered to the selected party.

4 is a diagram illustrating an example of collecting environmental information when a separate sensor network is located outside the set coverage of a sensing means in a multiple wireless sensor network system according to an embodiment of the present invention.

As shown in FIG. 4, an overlapping region exists between the sensing coverage 412 of the sensing means 410 included in the TAB 411 and the sensing coverage 422 of the sensing means 410 included in the TAB 421. If not, that is, when there is an area where the sensing signal cannot be collected by transmitting the sensing signal to each sensing means 410, the multiple wireless sensor network system uses the reference protocol (460) through the relay protocol means (460). As shown in 431, the sensing signal reachable range through each sensing means 410 may be extended.

The multi-wireless sensor network system generates a monitoring result through the monitoring means 420 using the environmental information collected by transmitting a sensing signal of an attribute corresponding to the collection condition determined by the condition determining means 350, and transmits the information. The monitoring result generated through the means 430 is transmitted to the control means 440 so that the monitoring result can be transmitted to the selected person in the control means 440.

FIG. 5 illustrates an example of environment information collected from a separate sensor network network and related parties and organizations selected in association with the environment information according to collection conditions set in the multiple wireless sensor network system according to an embodiment of the present invention. One drawing.

FIG. 5 illustrates an example in which the multi-wireless sensor network system of the present invention transmits the monitoring result generated by collecting traffic traffic information, which is environment information related to collection conditions and traffic volume, from a traffic information collection sensor network to a selected institution and a traffic management corporation. An organized table is shown.

As shown in FIG. 5, the multiple wireless sensor network system includes environmental information associated with collection conditions, fine dust (PM ₁₀ ) concentrations, nitrogen dioxide (NO ₂ ) concentrations, and ozone (O ₃ ) concentrations from separate air pollution sensor networks. Monitoring results generated by collecting phosphorus air pollution level information can be delivered to selected agencies and the Ministry of Environment. In addition, the monitoring result generated by collecting water pollution information, which is environmental information related to collection conditions and biological oxygen demand (BOD), may be transmitted from the multiple wireless sensor network system water pollution sensor network to selected institutions and the Ministry of Environment.

6 is a flowchart illustrating an order of providing a sequence of a method of multiple wireless sensor networking according to an embodiment of the present invention.

The multiple wireless sensor networking method may be implemented by the multiple wireless sensor network system of the present invention. In addition, in the following description of FIG. 6, FIG. 6 will be described with reference to FIG. 1 described above in order to understand the invention.

In step S610, the multiple wireless sensor network system collects environmental information associated with the optical coaxial mixed network.

Sensing means 110 may be detected through a separate sensor network, such as temperature information, air pressure, weather information such as precipitation, air pollution, environmental pollution information such as water pollution, traffic traffic information, pollutant emission or waste dumping It can collect environmental information such as surveillance information and unmanned crime prevention information.

At this time, the environmental information associated with the optical coaxial mixed network is a sensor network located within a range set from, for example, TAB located at a branch point in the optical coaxial mixed network or a CLC modem in the optical coaxial mixed network among the environmental information. It may be sensing information that can be detected through the network, sensing information related to data provided through the optical coaxial mixed network, or sensing information requested from related organizations such as the Ministry of Environment and the Traffic Management Corporation and selected persons. have.

The sensing unit 110 may collect the environmental information through a separate coaxial network and a separate sensor network.

For example, the sensing unit 110 may collect environmental information through an optical coaxial mixed network and a different sensor network such as an air pollution sensor network, a water pollution sensor network, and a traffic information collection sensor network. The sensor network system 100 may integrate and manage each sensor network through one optical coaxial mixed network.

The sensing means 110 transmits a sensing signal for sensing environmental information to a sensor terminal means located within the set coverage of the sensing means 110 or a separate sensor network network, and the environmental information detected by the transmitted sensing signal. May be received and collected from the sensor terminal means or the separate sensor network.

However, when a separate sensor network is located in addition to the set coverage of the sensing means 110, the relay protocol means 160 may extend the set coverage of the sensing means 110. Sensing signals can also be transmitted to the sensor network where it is located to collect environmental information.

In addition, the sensing means 110 may be included in a TAB located at a branch point in the optical coaxial mixed network, or in a CLC modem in the optical coaxial mixed network, and the sensing means 110 may be a branch point in the optical coaxial mixed network. It may be a TAB located at or a picocell unit sensor central node included in a CLC modem in the optical coaxial mixed network.

Sensing means 110 is a TAB that serves to branch the coaxial cable to provide data to more subscribers on the transmission line from the broadcasting / communication station of the optical coaxial mixed network to the subscriber (or home terminal) via the ONU, Or it may be included in the CLC modem which serves to convert the data transmitted along the coaxial cable into a signal of a form suitable for the terminal means of the subscriber.

In addition, the branching point in the optical coaxial mixing network including the sensing means 110 may be determined in consideration of the coverage of the sensing means 110.

In other words, in the present invention, even if the sensing means 110 is not included in all TABs or CLC modems in the optical coaxial network, the coverage of the sensing means 110, that is, the arrival of the sensing signal transmitted from the sensing means 110. It can be configured to selectively include only the TAB, or CLC modem that is considered to not overlap the possible range, it is possible to obtain a cost savings.

The condition determining means 150 may determine a collection condition for the sensing means 110, and the sensing means 110 may selectively collect environmental information of an attribute corresponding to the determined collection condition.

For example, when the fine dust PM ₁₀ concentration, the nitrogen dioxide (NO ₂ ) concentration, and the ozone (O ₃ ) concentration are set as the collection conditions for the sensing means 110 in the condition determining means 150, the sensing means ( 110 may selectively collect environmental information of an attribute corresponding to the determined collection condition from an air pollution sensor network.

In addition, when a request for changing a sensing range of a separate sensor network is generated from the control unit 140 in response to the selected person or external input associated with the environment information, the condition determining unit 150 determines the collection condition. By changing, the sensing range adjustment effect of the separate sensor network can be obtained. For example, when the sensing range through the indoor temperature sensor network is to be changed from '20 degrees Celsius or less 'to '10 degrees Celsius or less', the control means 140 may condition the change of the sensing range of the indoor temperature sensor network. Request to decision means 150. In addition, in response to the change request, the condition determining unit 150 collects only the environmental information that satisfies the collection condition of '10 degrees Celsius or less 'among the environmental information received when the sensing range is '20 degrees Celsius or less'. In addition, the sensing range of the indoor temperature sensor network can be adjusted.

In step S620, the multiple wireless sensor network system generates a monitoring result for the collected environmental information.

For example, when the air pollution sensor network is included within a radius of 5 km from the TAB in the optical coaxial mixing network, the sensing means 110 may include fine dust (PM ₁₀ ) concentration, nitrogen dioxide (NO ₂ ) concentration, and ozone ( O ₃ ) a sensing signal for measuring the concentration may be transmitted to the air pollution sensor network, and in response to the sensing signal, the monitoring unit 120 receives fine dust (PM ₁₀ ) received from the air pollution sensor network. Using the environmental information such as concentration, nitrogen dioxide (NO ₂ ) concentration, and ozone (O ₃ ) concentration, the ratio of the excess concentration value to the concentration value corresponding to the normal range of each substance is calculated, and as the monitoring result. It may generate fine dust (PM ₁₀ ) pollution, nitrogen dioxide (NO ₂ ) pollution, and ozone (O ₃ ) pollution.

In step S630, the multiple wireless sensor network system transmits the generated monitoring result to the control means.

For example, fine dust (PM ₁₀ ) concentrations, nitrogen dioxide (NO ₂ ) concentrations, and ozone (O ₃ ) concentrations and water pollution received from an air pollution sensor network included within a radius of 5 km from the TAB in the optical coaxial mixed network. Monitoring results such as fine dust (PM ₁₀ ) pollution, nitrogen dioxide (NO ₂ ) pollution, ozone (O ₃ ) pollution and water pollution using environmental information such as biological oxygen demand (BOD) received from the sensor network Is generated, the information transmission means 130 transmits each generated monitoring result to the optical coaxial mixed network so that the air pollution sensor network and the water pollution sensor network can be collectively managed through the optical coaxial mixed network. The signal may be converted into a signal in a form suitable for the transmission medium of the TAB, or transmitted upward from the TAB or CLC modem to the control means 140.

In step S640, the multiple wireless sensor network system delivers the monitoring result transmitted to the control means to the selected person.

In other words, the control unit 140 monitors environmental information such as monitoring results such as fine dust (PM ₁₀ ) pollution, nitrogen dioxide (NO ₂ ) pollution, ozone (O ₃ ) pollution, and water pollution from the TAB or CLC modem. It can be forwarded to selected stakeholders, for example, the Ministry of Environment, to air pollution and water pollution management personnel.

In addition, the control means 140 may provide the processing information generated by using the monitoring result to the subscriber of the optical coaxial mixed network. In other words, the control means 140 may be included in the broadcasting / communication station of the optical coaxial mixing network, and when the CATV broadcasting data is transmitted to the subscriber from the broadcasting / communication station using the optical coaxial mixing network, the control means 140 May include the monitoring result to provide the subscriber with the processed CATV broadcast data.

In addition, embodiments of the present invention include computer-readable media containing program instructions for performing various computer-implemented operations. The computer readable medium may include program instructions, data files, data structures, etc. alone or in combination. The medium or program instructions may be those specially designed and constructed for the purposes of the present invention, or they may be of the kind well-known and available to those having skill in the computer software arts. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tape, optical media such as CD-ROMs, DVDs, and magnetic disks, such as floppy disks. Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include not only machine code generated by a compiler, but also high-level language code that can be executed by a computer using an interpreter or the like.

While specific embodiments of the present invention have been described so far, various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the claims below, but also by those equivalent to the claims.

1 is a diagram illustrating a configuration of a multiple wireless sensor network system according to an embodiment of the present invention.

2 is a diagram illustrating the overall network configuration of a multiple wireless sensor network system using an optical coaxial mixed network according to an embodiment of the present invention.

3 is a diagram illustrating an example of collecting environmental information through a separate sensor network in a multiple wireless sensor network system according to an embodiment of the present invention.

4 is a diagram illustrating an example of collecting environmental information when a separate sensor network is located outside the set coverage of a sensing means in a multiple wireless sensor network system according to an embodiment of the present invention.

FIG. 5 illustrates an example of environment information collected from a separate sensor network network and related parties and organizations selected in association with the environment information according to collection conditions set in the multiple wireless sensor network system according to an embodiment of the present invention. One drawing.

6 is a flowchart illustrating an order of providing a sequence of a method of multiple wireless sensor networking according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: multiple wireless sensor network system

110: sensing means

120: monitoring means

130: information transmission means

140: control means

150: condition determination means

160: relay protocol means

Claims (17)

Sensing means for collecting environmental information associated with an optical coaxial mixed network through a separate sensor network network different from the optical coaxial mixed network; Relay protocol means for transmitting a sensing signal to the separate sensor network network located outside the coverage when the separate sensor network network is located outside the set coverage of the sensing means; Monitoring means for generating a monitoring result for the collected environmental information; And Information transmitting means for transmitting the generated monitoring result to a control means Multiple wireless sensor network system comprising a. delete The method of claim 1, The sensing means, And a TAB located at a branch point in the optical coaxial mixed network, or a CLC modem in the optical coaxial mixed network. The method of claim 1, The sensing means, And a TAB located at a branch point in the optical coaxial mixed network, or a picocell unit sensor central node included in a CLC modem in the optical coaxial mixed network. The method according to claim 3 or 4, The branch point in the optical coaxial mixed network including the sensing means, Multiple wireless sensor network system, characterized in that determined in consideration of the coverage of the sensing means. The method of claim 1, At least one of the sensing means, the monitoring means, or the information transmission means, and a power supply means for providing power via the optical coaxial mixed network Multiple wireless sensor network system further comprising. The method of claim 1, The environmental information associated with the optical coaxial mixing network, Temperature information, environmental pollution degree information, traffic traffic information, and waste speculation monitoring detected through the TAB located at a branch point in the optical coaxial mixed network or the separate sensor network located in a range set from a CLC modem in the optical coaxial mixed network. Multi-wireless sensor network system, characterized in that the detection information of at least one of the information, unmanned crime prevention information. The method of claim 1, The control means, And transmitting the received monitoring result to a selected person related to the environment information. The method of claim 1, Further comprising condition determination means, The sensing means, And collecting environmental information of an attribute corresponding to a collection condition determined by the condition determining means selectively. The method of claim 1, The control means, And provide processing information generated by using the monitoring result to a subscriber of the optical coaxial mixed network. In the multiple wireless sensor networking method implemented by a multiple wireless network system, In the sensing means of the multiple wireless network system, collecting environmental information associated with an optical coaxial mixed network through a separate sensor network network different from the optical coaxial mixed network; When the separate sensor network is located outside the set coverage of the sensing means, transmitting a sensing signal from the relay protocol means of the multiple wireless network system to the separate sensor network located outside the coverage; Generating monitoring results for the collected environmental information in the monitoring means of the multiple wireless network system; And In the information transmitting means of the multiple wireless network system, transmitting the generated monitoring result to a control means Multiple wireless sensor networking method comprising a. delete The method of claim 11, The environmental information associated with the optical coaxial mixing network, Temperature information, environmental pollution degree information, traffic traffic information, and waste speculation monitoring detected through the TAB located at a branch point in the optical coaxial mixed network or the separate sensor network located in a range set from a CLC modem in the optical coaxial mixed network. And sensing information of at least one of information and unmanned crime prevention information. The method of claim 11, In the control means receiving the monitoring result, transmitting the monitoring result to a selected party associated with the environment information; Multiple wireless sensor networking method further comprising. The method of claim 11, Determining a collection condition for the sensing means, The step of collecting environmental information, Selectively collecting environmental information of an attribute corresponding to the determined collection condition Multiple wireless sensor networking method comprising a. The method of claim 11, In the control means receiving the monitoring result, providing processing information generated using the monitoring result to a subscriber of the optical coaxial mixed network. Multiple wireless sensor networking method further comprising. A computer-readable recording medium having recorded thereon a program for performing the method of claim 11.

Images