KR101333145B1 - subprocessor device, mobile devices and sensor network system having the same - Google Patents

Abstract

The present invention relates to a sub-processor device, a portable terminal having the same, and a sensor network system having the same. Specifically, the present invention relates to a protocol stack for processing a network signal received from a communication unit, and a sub for generating an event for the network signal. A sub-processor unit having an application mounted thereon, wherein the sub-processor unit performs a polling function to operate the main processor device only when a specific event occurs so that the main processor device can maintain low power, It relates to a terminal and a sensor network system having the same.

Description

Subprocessor device, mobile terminal having same and sensor network system having same {subprocessor device, mobile devices and sensor network system having the same}

The present invention relates to a sub-processor device, a portable terminal having the same, and a sensor network system having the same. Specifically, the present invention relates to a protocol stack for processing a network signal received from a communication unit, and a sub for generating an event for the network signal. A sub-processor unit having an application mounted thereon, wherein the sub-processor unit performs a polling function to operate the main processor device only when a specific event occurs so that the main processor device can maintain low power, It relates to a terminal and a sensor network system having the same.

In general, the main processor device is a device having memory, arithmetic, and control functions, and may be provided as a CPU, a micro processor, a micro controller, or a micro controller unit (MCU), and peripheral devices connected to the main processor device, for example, Controls the communication module to communicate with external devices.

In addition, the communication module may include a Bluetooth module, a Wi-Fi module, or a USIM module, and the main processor device is equipped with a protocol stack for communicating each module.

In addition, the main processor device polls the external device through the communication module to generate an event for a signal received from the external device.

On the other hand, the main processor device has to maintain a state of continuously operating to poll the external device, there is a problem that the power consumption is increased.

In addition, the communication module including the Bluetooth module, the Wi-Fi module, or the USIM module must continuously operate to communicate with the external device, thereby increasing power consumption and performing separate data transmission. There is a problem that must maintain the operating state even if not.

In addition, in the case of a mobile terminal having the main processor device, the main processor device continuously operates to generate an event for a signal received by a Bluetooth module, a Wi-Fi module, or a USIM module, thereby increasing power consumption. And there is a problem that the inconvenience that must be frequently charged of the mobile terminal occurs.

The present inventors have tried to maintain the operation mode of the main processor device unnecessarily so as not to consume power, and to allow the main processor device to operate only when a specific event occurs for a signal received from an external device. The present invention has been completed by developing a technical configuration of an apparatus, a portable terminal having the same, and a sensor network system having the same.

Accordingly, an object of the present invention is to provide a sub-processor device which operates only when a specific event occurs and maintains a low power state, a portable terminal having the same, and a sensor network system having the same.

In addition, another object of the present invention is to enable a communication module including a Bluetooth module, a Wi-Fi module or a USIM module to communicate with an external device to operate only when a specific event occurs, and to maintain a low power state in normal times. The present invention provides a subprocessor device, a portable terminal having the same, and a sensor network system having the same.

In addition, another object of the present invention is to reduce the power consumption of the main processor device and the communication module of the mobile terminal, and to operate only when a necessary event occurs, a sub-processor device, a mobile terminal having the same and a sensor network having the same To provide a system.

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the present invention provides a sub-processor device connected to the main processor device, Communication unit for receiving a network signal from an external device; And a sub-processor unit equipped with a protocol stack for processing a network signal received from the communication unit, and a sub-application for generating an event for the network signal, wherein the sub-application includes the main processor only when a specific event occurs. It provides a sub-processor device characterized in that the device to operate.

The present invention also provides a mobile terminal including a main processor device connected to a sub processor device and a communication module controlled by the main processor device, wherein the main processor device sets an event to store and sets the specific event in the sub application. part; And an event processor configured to change the main processor device from a sleep mode to an operation mode according to the specific event when the specific event occurs in the subprocessor device.

The present invention also provides a sensor network system including a sensor node having a subprocessor device.

In a preferred embodiment, the sub processor unit performs polling on behalf of the main processor device.

In a preferred embodiment, the network signal is a Zigbee signal, the communication unit receiving means for receiving the Zigbee signal; And transmitting means for transmitting the Zigbee signal to the external device, wherein the protocol stack is a Zigbee protocol stack.

In a preferred embodiment, the communication module includes a Bluetooth module, a Wi-Fi module, or a USIM module, and the sub-processing device is individually provided when the Bluetooth module, the Wi-Fi module, or the USIM module is in a sleep mode. In operation, it is provided to switch each module to an operation mode when the specific event occurs.

The present invention has the following excellent effects.

First, according to an exemplary embodiment of the present invention, a subprocessor device, a portable terminal including the same, and a sensor network system including the same, the subprocessor device polls on behalf of the main processor device, and the main processor device only generates a specific event. Since it is possible to operate, an effect of reducing power consumption by the main processor device can be obtained.

In addition, according to an exemplary embodiment of the present invention, a subprocessor device, a portable terminal including the same, and a sensor network system including the same may operate in communication with an external device in a sleep mode and operate only when a specific event occurs. Since the communication module can be operated, it is possible to effectively reduce the power consumption generated.

In addition, according to an embodiment of the present invention, a subprocessor device, a mobile terminal having the same, and a sensor network system including the same, according to an embodiment of the present invention, may be configured to set the mobile terminal to a sleep mode even when a network signal is received from an external device. Polling, the main processor device or the communication module is in the sleep mode, the power consumption of the mobile terminal can be reduced.

1 is a block diagram illustrating a subprocessor device according to an embodiment of the present invention.
2 is a block diagram illustrating a mobile terminal according to an embodiment of the present invention.
3 is a block diagram illustrating a sensor node according to an embodiment of the present invention.
4 is a diagram illustrating a sensor network system according to an embodiment of the present invention.

Although the terms used in the present invention have been selected as general terms that are widely used at present, there are some terms selected arbitrarily by the applicant in a specific case. In this case, the meaning described or used in the detailed description part of the invention The meaning must be grasped.

Hereinafter, the technical structure of the present invention will be described in detail with reference to preferred embodiments shown in the accompanying drawings.

However, the present invention is not limited to the embodiments described herein but may be embodied in other forms. Like reference numerals designate like elements throughout the specification.

1 is a block diagram illustrating a subprocessor device according to an embodiment of the present invention.

Referring to FIG. 1, the subprocessor apparatus 110 according to an embodiment of the present invention may be connected to the main processor apparatus 10 and may reduce power consumption of the main processor apparatus 10, and may include a communication unit ( 111 and the subprocessor unit 112.

In addition, the main processor device 10 may include a CPU, a micro processor, a micro controller, or a micro controller unit (MCU), and may be provided as a device that performs a memory, arithmetic, or control function.

In addition, the communication unit 111 is for communicating with an external device, and is provided to receive a network signal from the external device, and includes a transmitting means 111a and a receiving means 111b.

In addition, the external device may be an apparatus for transmitting and receiving network signals.

In addition, the network signal is preferably provided as a Zigbee signal (Zigbee), the communication unit 111 is provided to transmit and receive the Zigbee signal with the external device.

In addition, since the power consumption for generating the Zigbee signal consumes relatively less power than the Wi-Fi signal or the Bluetooth signal, the communication unit 111 may be operated while consuming low power.

In addition, the transmitting means 111a transmits the Zigbee signal to the external device, and transmits the information input from the sub-processor unit 112 to be described later as the Zigbee signal to the external device.

In addition, the receiving means 111b is for receiving the Zigbee signal, and receives the upper Zigbee signal from the external device.

The sub-processor unit 112 may operate the main processor unit 10 when a specific event occurs, and is connected to the main processor unit 10 and the main processor unit 10 is in a sleep mode. In addition, the individual operation is provided, and includes a protocol stack 112a and a sub-application 112b.

In addition, the sub-processor unit 112 is provided to perform polling on behalf of the main processor device 10 to poll the network signal received by the communication unit 111.

In addition, the protocol stack 112a is for processing a network signal received from the communication unit 111 and may be mounted in the subprocessor unit 112. In addition, since the network signal is provided as a Zigbee signal, the protocol stack 112a is preferably provided as a Zigbee protocol stack 112a.

In addition, the sub-application 112b is to generate an event with respect to the network signal, and when the network signal received from the communication unit 111 is input to the sub-application 112b through the protocol stack 112a, Poll the network signal.

In addition, a specific event is preset in the sub-application 112b, and is provided to output an interrupt signal to the main processor device 10 only when the specific event occurs.

In addition, when the main processor device 10 is in the sleep mode, the sub-application 112b outputs the interrupt signal to operate the main processor device 10.

That is, when the main processor device 10 is set to a sleep mode to reduce power consumption, the sub processor 112 performs polling so that the sleep mode of the main processor device 10 may be maintained. have.

In addition, by setting a specific event to operate the main processor device 10 in advance, it is possible to operate the main processor device 10 only when an event desired by the user occurs.

2 is a block diagram illustrating a mobile terminal according to an embodiment of the present invention.

Referring to FIG. 2, when the mobile terminal 100 is set to a sleep mode to reduce power consumption, the sleep mode is not released even when a network signal is received from an external device. It is provided to operate only when it occurs, and includes a subprocessor device 110, a main processor device 120, and a communication module 130.

In addition, the portable terminal 100 according to an embodiment of the present invention is a key input unit or a touch screen unit for receiving a user command, a memory unit for storing data, a display unit for moving or displaying the event or specific information on the screen It may be further provided with a communication processing unit connected to the communication network.

In addition, the mobile terminal 100 may be provided as a mobile communication terminal including a smartphone or a tablet PC.

The sub-processor device 110 allows the mobile terminal 100 to operate only for a specific event, and is connected to the main processor device 120 to be described later, the main processor device 120 to be described later or the communication module to be described later. Even when the 130 is in the sleep mode, the controller 130 is provided to operate separately and includes a communication unit 111 and a subprocessor unit 112.

In addition, the communication unit 111 is for transmitting and receiving a network signal with an external device, the network signal is provided as a Zigbee (Zigbee) signal, and includes a transmitting means (111a) and a receiving means (111b).

In addition, the transmitting means 111a is provided to transmit the Zigbee signal, and the receiving means 111b is for receiving the Zigbee signal.

In addition, the sub-processor unit 112 is for generating a specific event for the network signal, and includes a protocol stack 112a and a sub-application 112b.

In addition, the protocol stack 112b is for processing a network signal received from the communication unit 111 and may be provided as a Zigbee protocol stack.

In addition, the sub-application 112b is provided to poll the network signal received by the communication unit 111, and a specific event is set in advance so that the main processor device 120, which will be described later, only operates when the specific event occurs. do.

In addition, the subprocessor apparatus 110 is provided to have substantially the same technical configuration as the subprocessor apparatus 110 according to an embodiment of the present invention.

The main processor device 120 controls the mobile terminal 100 to perform functions such as a telephone call, information search, or information storage. The main processor device 120 is provided to control the communication module 130 to be described later, and the subprocessor device ( The specific event is set to 110, and includes an event setting unit 121 and an event processing unit 122.

In addition, the event setting unit 121 is for setting the specific event to the subprocessor device 110, and is mounted on the main processor device 120 and connected to the main processor device 120. 110 is provided to control.

In addition, the event setting unit 121 may be configured to set the specific event to the sub-application 112b mounted on the sub-processor device 110, and the sub-application 112b may be the event setting unit 121. The main processor device 120 is operated only when a specific event set through the above occurs.

In addition, the event setting unit 121 is preferably provided to function to set the specific event by receiving a user command through a key input unit or a touch screen unit provided in the mobile terminal 100. In addition, the event setting unit 121 may be provided as a program functioning to allow the portable terminal to receive the user command and set the specific event in the sub-application 112b.

In addition, the event processing unit 122 is for operating the main processor device 120. The event processor 122 is mounted on the main processor device 120 and is connected to the sub processor device 110. It is provided to receive the interrupt signal output from.

In addition, the event processor 122 receives the interrupt signal from the sub-application 112b mounted in the sub-processor device 110 when the specific event occurs in the sub-processor device 110. 120 is provided to switch from the sleep mode to the operation mode.

That is, the event processing unit 122 switches the main processor device 120 to an operation mode and then causes the main processor device 120 to process the specific event.

The communication module 130 is provided in the mobile terminal to communicate with the external device, provided in the mobile terminal to enable communication via Bluetooth, Wi-Fi or mobile communication network, Bluetooth module 131, Wi-Fi module ( 132 and USIM module 133.

In addition, the Bluetooth module 131 communicates with the external device using a Bluetooth signal, and is provided in the portable terminal to be connected to the main processor device 120 and to transmit or receive the Bluetooth signal. The main processor device 120 is provided to be able to switch to the sleep mode.

In addition, the Wi-Fi module 132 communicates with the external device using a Wi-Fi signal, and is provided in the portable terminal to be connected to the main processor device 120 and to transmit / receive the Wi-Fi signal. The main processor device 120 is provided to be able to switch to the sleep mode.

In addition, the USIM module 133 is a general-purpose subscriber identification module. The USIM module 133 is provided in the portable terminal to enable a mobile communication network and to store personal information of the user. And controlled to switch to the sleep mode.

Meanwhile, even when the Bluetooth module 131, the Wi-Fi module 132, or the USIM module 133 are in a sleep mode, the subprocessor device 110 maintains an operating state and generates the specific event. The Bluetooth module 131, the Wi-Fi module 132, or the USIM module 133 are switched to an operation mode.

That is, when each module 131, 132, 133 is in an operation mode, power is continuously consumed to reduce power consumption by switching to a sleep mode. When the module is switched to an operation mode every time according to a network signal received from the external device. There is no efficient power consumption reduction.

However, since the subprocessor apparatus 110 switches the modules 131, 132, and 133 to the operation mode only when a specific event occurs, the modules 131, 132, and 133 maintain the sleep mode to consume power. Can be reduced.

3 is a block diagram illustrating a sensor node according to an embodiment of the present invention, and FIG. 4 is a diagram illustrating a sensor network system according to an embodiment of the present invention.

Referring to FIG. 3, the sensor node 200 according to an embodiment of the present invention is provided to monitor an external environment, and includes a sensor 210 and a subprocessor device 220.

In addition, the sensor 210 is for monitoring the external environment, and may be to monitor the external environment including temperature, humidity, weather, gas, water quality, soil or electronic devices, and operate or control the electronic device. It may be to.

In addition, the sensor 210 may be a sensor for controlling each electronic device when electronic devices such as TV, audio, PC, or CCTV form a home network.

In addition, the sub-processor device 220 is to transmit a signal input from the sensor 210 to a mobile terminal or an external device and to control the sensor 210, in order to reduce power consumption of the sensor 210. The sensor 210 is switched to a sleep mode or operated to monitor the external environment, and includes a communication unit 221 and a subprocessor unit 222.

In addition, the communication unit 221 communicates with an external device or a mobile terminal, and is provided to transmit and receive a network signal, and includes a transmitting means 221a and a receiving means 221b.

In addition, the network signal is provided as a Zigbee signal (Zigbee), the communication unit 221 is provided to transmit and receive the Zigbee signal.

In addition, the transmitting means 221a may be equipped to transmit the data collected by monitoring the external environment by the sensor in the Zigbee signal, and the receiving means 221b may receive the Zigbee signal. Is provided.

In addition, the subprocessor unit 222 may operate the sensor 210 when a specific event occurs, and may be individually operated even when the sensor 210 is connected to the sensor 210 and the sensor 210 is in a sleep mode. And a protocol stack 222a and a sub-application 222b.

In addition, the protocol stack 222a is for processing a network signal received from the communication unit 221 and may be provided as a Zigbee protocol stack 222a.

In addition, the sub-application 222b is for generating a network signal received by the communication unit 221 as an event. The sub-application 222b is configured to poll the network signal and a specific event is set in advance so that the sub-application 222b is generated only when the specific event occurs. Enable sensor 210 to operate.

That is, when the sensor node 200 is set to the sleep mode to reduce the power consumed by the sensor 210, the sensor node 200 polls the sub-processor device 220 so that the sleep mode is maintained. It can be operated when a specific event occurs, thereby reducing power consumption efficiently.

In addition, the sub-processor device 220 provided in the sensor node 200 according to an embodiment of the present invention may be provided to have substantially the same configuration as the sub-processor device 110 according to an embodiment of the present invention. have.

Referring to FIG. 4, the sensor network system 300 according to an embodiment of the present invention includes the sensor nodes 200a, 200b, 200c, 200d, 200e, 200f, 200g, and 200h. The 200a, 200b, 200c, 200d, 200e, 200f, 200g, and 200h are provided to monitor the external environment and maintain a sleep mode when necessary to reduce power consumption and operate only when a specific event occurs.

In addition, the network signal transmitted from the sensor nodes (200a, 200b, 200c, 200d, 200e, 200f, 200g, 200h) may be transmitted to the mobile terminal 100, the mobile terminal 100 of the present invention It may have the same configuration as the mobile terminal 100 according to an embodiment, and may include a main processor device 110 and a sub processor device 120.

That is, the sensor network system 300 according to an embodiment of the present invention may set a specific event to allow the sensor node 200 or the portable terminal 100 to operate and maintain a sleep mode in normal times. Can effectively reduce power consumption.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, Various changes and modifications will be possible.

110, 220: subprocessor device 111, 221: communication unit
111a, 221a: transmitting means 111b, 221b: receiving means
112 and 222: subprocessor unit 112a and 222a: protocol stack
112b and 222b: sub-application 120: main processor unit
121: event setting unit 122: event processing unit
130: communication module 131: Bluetooth module
132: WiFi module 133: USIM module
210: sensor

Claims (6)

When a sensor network is configured with a plurality of sensors, the mobile terminal receives measurement values measured from the sensors of the sensor network as network signals.
A main processor device for performing storage, arithmetic and control functions; And
And a sub-processor device operating separately from the main processor device, the sub-processor device receiving the network signal and storing or processing measurements measured by the sensors.
The subprocessor device,
A communication unit for receiving the network signal; And
A protocol stack for processing a network signal received by the communication unit, and a polling for the network signal, and when the main processor device is in a sleep mode, the sub processor outputs an interrupt signal to operate the main processor device. And a sub processor unit on which an application is mounted.
When the main application is set to the sleep mode, the sub-application does not release the sleep mode of the main processor device even when a network signal is received from an external device, and the main processor device operates only when a specific event set by a user occurs. And process the network signal.
delete The method of claim 1,
The network signal is a Zigbee signal,
The communication unit
Receiving means for receiving the Zigbee signal; And
Transmitting means for transmitting the zigbee signal to the external device;
And the protocol stack is a Zigbee protocol stack.
The method of claim 1,
The main processor unit
An event setting unit configured to set and store the specific event in the sub-application; And
And an event processor configured to change the main processor device from a sleep mode to an operation mode according to the specific event when a specific event occurs in the subprocessor device.
5. The method of claim 4,
The main processor device is provided with a communication module including a Bluetooth module, a Wi-Fi module or a USIM module,
The sub-processing device is configured to individually operate when the Bluetooth module, the Wi-Fi module, or the USIM module is in a sleep mode, and to switch each module to an operation mode when the specific event occurs. . delete

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