CN111355982A - Low-power-consumption product real-time pushing system - Google Patents

Abstract

The invention relates to the technical field of low-power-consumption products, in particular to a low-power-consumption product real-time pushing system, which comprises the following steps: s1, waking up and powering on; s2, starting a program; s3, signal transmission; s4, receiving by the streaming media server; and S5, pushing the message. According to the invention, the IP address of the server which needs to be connected when the device is on line next time is cached, the device does not need to consume time to request the server address for uploading the streaming media after being awakened, the currently generated event type is reported in a UDP message or TCP/TLS long link mode, and the time consumed for establishing long connection with the server is directly skipped, so that the reporting speed of the event is greatly improved, and the method is suitable for wide popularization.

Description

Low-power-consumption product real-time pushing system

Technical Field

The invention relates to the technical field of low-power-consumption products, in particular to a real-time pushing system for low-power-consumption products.

Background

The low power consumption is divided into two aspects, namely working condition power consumption and total average power consumption or equivalent power consumption, the working condition power consumption is low, mainly the energy efficiency ratio is high, for example, under the same brightness requirement, the power consumption of an LED or an energy-saving lamp is less than that of an incandescent lamp, so the LED or the energy-saving lamp can be called as low power consumption products, the low power consumption products need a certain time to wake up from a dormant state, the time is also needed to establish connection with a server after waking up, if audio and video data needs to establish an encryption channel, the time is more consumed, the real-time requirement of event pushing of some low power consumption products is very high, for example, a doorbell button, and therefore a scheme for improving the event reporting speed is.

Disclosure of Invention

The invention aims to solve the problems that in the prior art, event reporting is long in time consumption and the like, and provides a low-power-consumption product real-time pushing system.

In order to achieve the purpose, the invention adopts the following technical scheme:

a low-power-consumption product real-time pushing system is designed, and comprises the following steps:

s1, waking up and powering on;

s2, starting a program;

s3, signal transmission;

s4, receiving by the streaming media server;

and S5, pushing the message.

2. The real-time pushing system of low-power products of claim 1, wherein the step of waking up power-on in S1 specifically comprises:

firstly, sending a wakeup instruction;

secondly, transmitting the signals to a signal processing unit through an input unit, and simultaneously buffering the IP address of the signals of the signal processing unit by a buffering unit;

step three, sending a wake-up instruction through an output unit after being processed by a signal processing unit, and switching the product from a low power consumption state to a normal working state;

fourthly, after the output unit stops outputting the signals, the signal processing unit sends a timing instruction to the timing unit, and when the time reaches a set value, the sleep unit closes the equipment;

fifthly, when the product is awakened again, the input unit directly sends an awakening instruction through the IP address buffered by the buffer unit and the output unit.

3. The real-time pushing system of low power consumption products of claim 1, wherein the step of transmitting the signal in S3 is:

firstly, immediately using a cached IP address of a server after a program is started, and reporting the type of a current event in a signal form;

secondly, repeatedly reporting events;

thirdly, filtering the reported event;

and fourthly, obtaining the filtered event.

4. The real-time pushing system of low power consumption products as claimed in claim 1, wherein the step of receiving by the streaming media server in S4 is:

firstly, receiving filtered events through electric signals;

secondly, classifying and numbering the received events;

and thirdly, marking the special event.

5. The real-time pushing system of low-power products of claim 1, wherein the step of pushing the S5 message is as follows:

the method comprises the following steps that firstly, after a server receives an event reported by a low-power consumption device, the server judges according to the type of the event, the serial number of the event and a push switch of the event;

secondly, pushing the judged event;

and step three, calling a third-party pushing service to carry out real-time pushing.

The invention has the beneficial effects that:

1. according to the invention, the IP address of the server which needs to be connected when the device is on line next time is cached, and the time is not consumed to request the server address for uploading the streaming media after the device is awakened.

2. The event type which occurs at present is reported in a UDP message or TCP/TLS long link mode, and the time consumed for establishing long connection with the server is directly skipped, so that the event reporting speed is greatly improved, and the method is suitable for wide popularization.

Drawings

FIG. 1 is a schematic block diagram of the present invention;

fig. 2 is a block diagram of the wake-up power-up principle of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example 1

Referring to fig. 1-2, a low power consumption product real-time pushing system includes the following steps:

s1, waking up and powering on; the method comprises the following specific steps:

firstly, sending a wakeup instruction;

secondly, transmitting the signals to a signal processing unit through an input unit, and simultaneously buffering the IP address of the signals of the signal processing unit by a buffering unit;

step three, sending a wake-up instruction through an output unit after being processed by a signal processing unit, and switching the product from a low power consumption state to a normal working state;

fourthly, after the output unit stops outputting the signals, the signal processing unit sends a timing instruction to the timing unit, and when the time reaches a set value, the sleep unit closes the equipment;

fifthly, when the product is awakened again, the input unit directly sends an awakening instruction through the IP address buffered by the buffer unit and the output unit.

S2, starting a program;

s3, the signal transmission step is:

firstly, immediately using a cached IP address of a server after a program is started, and reporting a currently occurring event type in a UDP message form;

secondly, repeatedly reporting events;

thirdly, filtering the reported event;

and fourthly, obtaining the filtered event.

S4, the streaming media server receiving step is:

firstly, receiving filtered events through electric signals;

secondly, classifying and numbering the received events;

and thirdly, marking the special event.

S5, the message pushing step is as follows:

the method comprises the following steps that firstly, after a server receives an event reported by a low-power consumption device, the server judges according to the type of the event, the serial number of the event and a push switch of the event;

secondly, pushing the judged event;

and step three, calling a third-party pushing service to carry out real-time pushing.

Example 2

Referring to fig. 1-2, a low power consumption product real-time pushing system includes the following steps:

s1, waking up and powering on; the method comprises the following specific steps:

firstly, sending a wakeup instruction;

secondly, transmitting the signals to a signal processing unit through an input unit, and simultaneously buffering the IP address of the signals of the signal processing unit by a buffering unit;

step three, sending a wake-up instruction through an output unit after being processed by a signal processing unit, and switching the product from a low power consumption state to a normal working state;

fourthly, after the output unit stops outputting the signals, the signal processing unit sends a timing instruction to the timing unit, and when the time reaches a set value, the sleep unit closes the equipment;

fifthly, when the product is awakened again, the input unit directly sends an awakening instruction through the IP address buffered by the buffer unit and the output unit.

S2, starting a program;

s3, the signal transmission step is:

firstly, immediately using a cached IP address of a server after a program is started, and reporting a currently occurring event type in a TCP (transmission control protocol) mode;

secondly, repeatedly reporting events;

thirdly, filtering the reported event;

and fourthly, obtaining the filtered event.

S4, the streaming media server receiving step is:

firstly, receiving filtered events through electric signals;

secondly, classifying and numbering the received events;

and thirdly, marking the special event.

S5, the message pushing step is as follows:

the method comprises the following steps that firstly, after a server receives an event reported by a low-power consumption device, the server judges according to the type of the event, the serial number of the event and a push switch of the event;

secondly, pushing the judged event;

and step three, calling a third-party pushing service to carry out real-time pushing.

Example 3

Referring to fig. 1-2, a low power consumption product real-time pushing system includes the following steps:

s1, waking up and powering on; the method comprises the following specific steps:

firstly, sending a wakeup instruction;

secondly, transmitting the signals to a signal processing unit through an input unit, and simultaneously buffering the IP address of the signals of the signal processing unit by a buffering unit;

step three, sending a wake-up instruction through an output unit after being processed by a signal processing unit, and switching the product from a low power consumption state to a normal working state;

fourthly, after the output unit stops outputting the signals, the signal processing unit sends a timing instruction to the timing unit, and when the time reaches a set value, the sleep unit closes the equipment;

fifthly, when the product is awakened again, the input unit directly sends an awakening instruction through the IP address buffered by the buffer unit and the output unit.

S2, starting a program;

s3, the signal transmission step is:

firstly, immediately using a cached server IP address after a program is started, and reporting a currently occurring event type in a TLS long link mode;

secondly, repeatedly reporting events;

thirdly, filtering the reported event;

and fourthly, obtaining the filtered event.

S4, the streaming media server receiving step is:

firstly, receiving filtered events through electric signals;

secondly, classifying and numbering the received events;

and thirdly, marking the special event.

S5, the message pushing step is as follows:

the method comprises the following steps that firstly, after a server receives an event reported by a low-power consumption device, the server judges according to the type of the event, the serial number of the event and a push switch of the event;

secondly, pushing the judged event;

and step three, calling a third-party pushing service to carry out real-time pushing.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (5)

1. A low-power-consumption product real-time pushing system is characterized by comprising the following steps:

s1, waking up and powering on;

s2, starting a program;

s3, signal transmission;

s4, receiving by the streaming media server;

and S5, pushing the message.

2. The real-time pushing system of low-power products of claim 1, wherein the step of waking up power-on in S1 specifically comprises:

firstly, sending a wakeup instruction;

secondly, transmitting the signals to a signal processing unit through an input unit, and simultaneously buffering the IP address of the signals of the signal processing unit by a buffering unit;

step three, sending a wake-up instruction through an output unit after being processed by a signal processing unit, and switching the product from a low power consumption state to a normal working state;

fourthly, after the output unit stops outputting the signals, the signal processing unit sends a timing instruction to the timing unit, and when the time reaches a set value, the sleep unit closes the equipment;

fifthly, when the product is awakened again, the input unit directly sends an awakening instruction through the IP address buffered by the buffer unit and the output unit.

3. The real-time pushing system of low power consumption products of claim 1, wherein the step of transmitting the signal in S3 is:

firstly, immediately using a cached IP address of a server after a program is started, and reporting the type of a current event in a signal form;

secondly, repeatedly reporting events;

thirdly, filtering the reported event;

and fourthly, obtaining the filtered event.

4. The real-time pushing system of low power consumption products as claimed in claim 1, wherein the step of receiving by the streaming media server in S4 is:

firstly, receiving filtered events through electric signals;

secondly, classifying and numbering the received events;

and thirdly, marking the special event.

5. The real-time pushing system of low-power products of claim 1, wherein the step of pushing the S5 message is as follows:

the method comprises the following steps that firstly, after a server receives an event reported by a low-power consumption device, the server judges according to the type of the event, the serial number of the event and a push switch of the event;

secondly, pushing the judged event;

and step three, calling a third-party pushing service to carry out real-time pushing.

Images