DE212010000203U1 - A distributed smart remote control system for solar street lighting and the corresponding control method - Google Patents

Abstract

A distributed smart remote control system for solar street lighting, characterized in that the remote control system consists of some solar street lights and a distributed smart remote control contains a light pole of solar street lighting and a light body of solar street lighting is mounted on the light pole of solar street lighting, the light body of the Solar street lighting contains solar module, controller of solar street lighting, battery, lantern and microprocessor that can connect to the wireless network, the controller of solar street lighting is connected to the solar module, battery, lantern and microprocessor with the help of the controller of solar street lighting If the battery is charged via a solar module, the lantern is powered by a battery, the controller also sends various working parameters to the microprocessor and receives control commands from the microprocessor , The distributed smart remote control center consists of a server and a neural network control system. The Internet enables bidirectional communication between the distributed smart remote control center and the respective ...

Description

Field of the invention

The present invention relates to a distributed smart remote control system for the solar street lighting and the corresponding control method, which are suitable for a number of independent solar street lighting, and operate for distributed remote control of solar street lighting and smart control of solar street lighting.

Technical background

For independent solar street lighting, the laying of cables is not necessary, it is essentially a separate "solar street lighting island". Because of the lack of cable signal carriers, neither the well-known PLC technology (Power Line Communication) used in the remote monitoring and management of urban grid-powered street lighting can be used directly for fault detection and condition monitoring, nor can the control strategy of urban control -Centers of street lighting to be transferred to the "solar street lighting island" to realize the necessary function of distributed smart remote control of urban street lighting.

Description of the invention

The present invention is therefore based on the object to provide that a distributed smart remote control system for solar street lighting and the corresponding control method, which does not have the disadvantages mentioned above or at least to a lesser extent, the system distributed smart the respective separate solar street lighting remote control, this means that after each control process of the solar street lighting, the historical data is automatically stored, which uses the control parameters at the next environment change for automatic optimization.

The present invention is based on the technical teaching: a distributed smart remote control system for solar street lighting and the corresponding control method. The distributed smart remote control system for solar street lighting consists of several solar street lights and a distributed smart remote control center. The solar street lighting includes a light pole of solar street lighting and a light body of solar street lighting. As 1 can be seen, the light body of the solar street lighting is mounted on the light pole of the solar street lighting. The light body of the solar street lighting includes solar module, controller of solar street lighting, battery, lantern and microprocessor that can connect to the wireless network. As 2 can be seen, is the controller of the solar street lighting respectively in connection with solar module, battery, lantern and microprocessor. With the help of the controller of solar street lighting, the battery is charged via solar module, the lantern is powered by battery, in addition, the controller sends the microprocessor various working parameters and receives control command from the microprocessor.

The distributed smart remote control center consists of a server (computer) and a neural network control system (control program). Through the Internet bidirectional communication between the distributed smart remote control center and the respective solar street lighting can be realized.

The Neural Network Control System includes 2 BP Neural Networks, one BP Neural Network can control the on-time of solar street lighting, another BP Neural Network can control the off-time of solar street lighting. The microprocessor, which can connect to the wireless network, bundles various working parameters with the controller of the solar street lighting, sends on to the distributed smart remote control center and receives control commands from the distributed smart remote control center, which analyzes and controls the neural network control system learn the historical control data and set the control data manually with the controller of the solar street lighting. Through the distributed smart remote control center, centralized management, distributed control, smart control of multiple solar street lighting can be realized.

Method for controlling distributed smart remote control system for solar street lighting: Through the Internet bidirectional communication between the distributed smart remote control center and the respective solar street lighting can be realized. The microprocessor can connect to the wireless network so it can simply connect to the distributed smart remote control center, receive control commands from the distributed smart remote control center, and send various distributed work parameters to the distributed smart remote control center, making BP Neural Network controlled the turn-on and turn-off of each solar street lighting.

The BP Neural Network consists of input layer, implicit layer and output layer, each layer contains some neurons. y (k) / j = f (k) / j (ΣW (k-1) / ijy (k-1) / i-R (k) / j) j = 1, 2, ..., N _k ; k = 1, 2, ..., M
where, W (k-1) / ij is the connection strength between the i. Neuron im (k - 1). Layer and the j. Neuron in the k. Layer, R (k) / j is the corresponding threshold of the neuron, f (k) / j is the transfer function of the neuron, the number of neurons in the k. Layer, M is the total number of layers.

In the Neural Network Control System, a BP Neural Network controls the on-time of the respective solar street lights, the input layer indicates month, day, week and weather such as sunshine, cloudiness or rain, the output layer indicates the on-time of the respective solar street lights ; Another BP Neural Network controls the off-time of each solar street lighting, the input layer is month, day, week and weather like sunshine, clouds or rain, the output layer outputs the off time of the respective solar street lights. The control data recorded 10 days ago learns the BP Neural Network as a pattern, thereby the current turn-on and turn-off time of the respective solar street lights are calculated.

The current turn-on and turn-off time of the respective solar street lights can be calculated not only by BP Neural Network, but also set manually as required by the distributed smart remote control center or the local solar street lighting.

The present invention has the advantage that the distributed smart remote control system for solar street lighting consists of several solar street lights and a distributed smart remote control center. The solar street lighting includes a light pole of solar street lighting and a light body of solar street lighting. The light body of the solar street lighting is mounted on the light pole of the solar street lighting. The light body of the solar street lighting includes solar module, controller of solar street lighting, battery, lantern and microprocessor that can connect to the wireless network. The controller of the solar street lighting is in each case in connection with solar module, battery, lantern and microprocessor. With the help of the controller of solar street lighting, the battery is charged via solar module, the lantern is powered by battery, in addition, the controller sends the microprocessor various working parameters and receives control command from the microprocessor.

The distributed smart remote control center consists of a server (computer) and a neural network control system (control program). Through the Internet bidirectional communication between the distributed smart remote control center and the respective solar street lighting can be realized.

The Neural Network Control System includes 2 BP Neural Networks, one BP Neural Network can control the on-time of solar street lighting, another BP Neural Network can control the off-time of solar street lighting. The microprocessor, which can connect to the wireless network, bundles various working parameters with the controller of the solar street lighting, sends on to the distributed smart remote control center and receives control commands from the distributed smart remote control center, which analyzes and controls the neural network control system learn the historical control data and set the control data manually with the controller of the solar street lighting. Through the distributed smart remote control center, centralized management, distributed control, smart control of multiple solar street lighting can be realized.

The present invention solves the problems encountered in the application of solar street lighting, which are not only in the control of the island and the smart learning system, but also in the potential risk that the lantern and the corresponding system of solar street lighting Island can be stolen.

Description of the drawings

The present invention is further illustrated by the following drawings:

1 shows a schematic representation of a solar street lighting of the present invention.

2 shows a block diagram of the structure of a light body of a solar street lighting of the present invention.

3 Figure 12 is a block diagram of a distributed smart remote control system for solar panel lighting of the present invention.

4 Figure 12 shows a flow chart of the algorithm of a BP Neural Network of the present invention.

embodiment

With reference to the 1 to 4 It is shown that the distributed smart remote control system for solar street lighting consists of some solar street lights and a distributed smart remote control center. As 1 can be seen, the solar street lighting contains a light pole 1 the solar street lighting and a light body 2 the solar street lighting, the light body 2 the solar street lighting is on the light pole 1 the solar street lighting installed. The light body of the solar street lighting includes solar module, controller of solar street lighting, battery, lantern and microprocessor that can connect to the wireless network. As 2 can be seen, is the controller of the solar street lighting respectively in connection with solar module, battery, lantern and microprocessor. The distributed smart remote control center consists of a server (computer) and a neural network control system (control program). Through the Internet bidirectional communication between the distributed smart remote control center and the respective solar street lighting can be realized.

The Neural Network Control System includes 2 BP Neural Networks, one BP Neural Network can control the on-time of solar street lighting, another BP Neural Network can control the off-time of solar street lighting. The microprocessor, which can connect to the wireless network, bundles various working parameters with the controller of the solar street lighting, sends on to the distributed smart remote control center and receives control commands from the distributed smart remote control center, which analyzes and controls the neural network control system learn the historical control data and set the control data manually with the controller of the solar street lighting. Through the distributed smart remote control center, centralized management, distributed control, smart control of multiple solar street lighting can be realized.

Method for controlling the distributed smart remote control system for solar street lighting.

Through the Internet bidirectional communication between the distributed smart remote control center and the respective solar street lighting can be realized. The microprocessor can connect to the wireless network so it can simply connect to the distributed smart remote control center, receive control commands from the distributed smart remote control center, and send various distributed work parameters to the distributed smart remote control center, making BP Neural Network controlled the turn-on and turn-off of each solar street lighting.

The BP Neural Network consists of input layer, implicit layer and output layer, each layer contains some neurons. y (k) / j = f (k) / j (ΣW (k-1) / ijy (k-1) / i-R (k) / j) j = 1, 2, ..., N _k ; k = 1, 2, ..., M
where, W (k-1) / ij is the connection strength between the i. Neuron im (k - 1). Layer and the j. Neuron in the k. Layer, R (k) / j is the corresponding threshold of the neuron, f (k) / j is the transfer function of the neuron, the number of neurons in the k. Layer, M is the total number of layers.

In the Neural Network Control System, a BP Neural Network controls the turn-on time of the respective solar street lights, the input layer indicates month, day, week and weather like sunshine, cloudy or rainy, the output layer indicates the turn-on time of the respective solar street lights ; Another BP Neural Network controls the off-time of each solar street lighting, the input layer is month, day, week and weather like sunshine, clouds or rain, the output layer outputs the off time of the respective solar street lights. The control data recorded 10 days ago learns the BP Neural Network as a pattern, thereby the current turn-on and turn-off time of the respective solar street lights are calculated.

The current turn-on and turn-off time of the respective solar street lights can be calculated not only by BP Neural Network, but also set manually as required by the distributed smart remote control center or the local solar street lighting.

For the solar module, the commercially available monocrystalline silicon cell SD4-2007031237 is used.

For the controller of solar street lighting the commercially available controller SD-NJKXJSJ-600 is used.

The battery uses the commercially available LNT6-4 solar-lead acid battery.

For the lantern the commercially available LED emergency lighting SD6-0.65 is used.

For the microprocessor that can connect to the wireless network, the commercially available Intel 1.6G CPU / wireless network is used.

The server uses the commercially available IBM System x4650 M2 (7947101) computer.

The Neural Network Control System uses the commercially available application program for the Neural Network Control System MATLAB-BP.

Claims (3)

A distributed smart remote control system for solar street lighting, characterized in that the remote control system consists of a few solar street lights and a distributed smart remote control center; The solar street lighting includes a light pole of solar street lighting and a light body of solar street lighting, the light body of solar street lighting is mounted on the light pole of solar street lighting, the light body of solar street lighting contains solar module, controller of solar street lighting, battery, lantern and microprocessor connect to the wireless network, the controller of the solar street lighting is respectively in connection with solar module, battery, lantern and microprocessor, with the help of the controller of solar street lighting, the battery is charged via solar module, the lantern powered by battery, beyond the controller sends the microprocessor various operating parameters and receives control command from the microprocessor. The distributed smart remote control center consists of a server and a neural network control system, through which the Internet can realize bidirectional communication between the distributed smart remote control center and the respective solar street lights. The distributed smart remote control system for solar street lighting according to claim 1, characterized in that the neural network control system includes 2 BP neural networks, one BP Neural Network can control the on-time of the solar street lighting, another BP neural network can the off time of the solar Control street lighting. The distributed smart remote control system for the solar street lighting according to claim 2, characterized in that the BP Neural Network consists of input layer, implicit layer and output layer, each layer contains some neurons.

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