CN111787078A - Signaling control system and communication method based on elevator Internet of things - Google Patents

Abstract

The invention relates to the technical field of research and development of an elevator Internet of things system, in particular to a signaling server based on the elevator Internet of things, which comprises an application server, a signaling server and at least two pieces of terminal equipment, wherein the signaling server, the application server and the terminal equipment establish communication through Ethernet and by a protocol, and the signaling server has the advantages that: hardware equipment in elevator thing networking is applied to signaling server, including data acquisition equipment, data interchange between equipment such as emergency rescue terminal and emergency rescue seat, data acquisition equipment sends the elevator real-time operation data of gathering for emergency rescue terminal and emergency rescue seat through signaling server, arrival rate and the great improvement of success rate, compare other elevator internet of things, the success rate that the passenger asked for help to the rescue center when the dilemma appears in the elevator improves greatly, millisecond-level time delay simultaneously, the real-time of also letting whole two-way communication process obtain the assurance.

Description

Signaling control system and communication method based on elevator Internet of things

Technical Field

The invention relates to the technical field of research and development of an elevator Internet of things system, in particular to a signaling server and a communication method based on the elevator Internet of things.

Background

The communication mode between normal devices and devices, between applications and applications or between applications and devices follows the protocol principle of TCP/IP communication, and no matter the transmission of TCP or UDP, the communication mode must be connected into a communication channel in the form of an IP address binding port, so as to realize mutual data transmission or data service. However, if the communication method is applied to WAN and the Internet network transmission is constructed and secured by multiple layers of different routing and firewall devices, the communication link and data transmission must be managed by intermediate devices and the packet security is detected, and the link and data transmission cannot be realized without the agreement of the device security mechanism, and a communication channel cannot be constructed.

If there is no equipment configuration and connection convention for one party to safely penetrate another party in the communication between the equipments, the equipment loses the direction for establishing transmission in a multi-layer network environment, so that a communication channel cannot be established, and data transmission cannot be realized. Therefore, the network of both parties must be configured comprehensively to realize data communication, and then one party transparently accesses the rule, and the other party initiates connection according to the rule to establish a communication link. This situation is easy to implement if only a single one-to-one device communicates, and completely impossible if the device is multi-device and cross-platform.

In practical application, the one-to-one communication mode is few, most of the one-to-one communication modes are multi-device cross-platform communication, and if the multi-device cross-platform data communication is to be realized, the one-to-one communication mode needs to be completed in an intermediate service mode. An intermediate server is established and the mode of communication connection and protocol convention for forming the connection are made transparent, and then different devices are connected to the intermediate server according to the convention, thereby solving the problem of data exchange of all devices or applications.

At present, data communication of the Internet of things of the elevator is basically a multi-device cross-platform communication mode. The communication of the elevator Internet of things mainly comprises three types of data, wherein the first type is real-time data acquired by the operation of an elevator; the second is control data for running control interaction; the third is data for video voice transmission. Because the construction and data transmission of the communication link are realized by adopting an intermediate service mode, the data pushed and received by all the devices are in the same position, after the data is uploaded by one device, other connected devices can read and transmit the data, and if the data is communicated by video and voice data, one-to-many data broadcasting is realized. The communication resources are wasted seriously, unnecessary transmission is caused, and the confidential management and exchange of sensitive data cannot be realized from the data security perspective. The data communication function is realized, a large amount of data communication service resources such as bandwidth, storage, calculation, forwarding and the like are consumed, out-of-order transmission exists, the problem of large-amount data retrieval during data forwarding can be caused, meanwhile, as the magnitude of equipment or application increases, the intermediate service can cause that the input resources are not enough for incremental development of practical application due to ineffective processing, communication blockage can be formed sometimes to cause communication interruption, and the method belongs to a data communication mode with poor efficiency.

Disclosure of Invention

One of the objectives of the present invention is to provide a signaling server based on the internet of things of an elevator to overcome at least one of the above-mentioned drawbacks of the prior art.

One of the objectives of the present invention is to provide a communication method for a signaling server based on an internet of things of an elevator, so as to overcome at least one of the drawbacks of the prior art.

In order to solve the technical problems, the invention adopts the following technical scheme: a signaling server based on an elevator Internet of things comprises an application server, a signaling server and at least two pieces of terminal equipment, wherein the signaling server, the application server and the terminal equipment are communicated through an Ethernet and an agreed protocol.

The information server coordinates and transmits the scheduling management of the resource to the communication type, data mode and transmission appointed protocol of the terminal equipment or the application server.

And the signaling server, the application server and the terminal equipment verify the smoothness or the communication state of network communication through low-consumption heartbeat detection.

And the terminal equipment or the application server actively sends communication address or resource data information to the signaling server.

A communication method established by any one of the signaling servers comprises the following steps: the method comprises the following steps:

a, when one terminal and the other terminal need to initiate communication for data exchange, the one terminal makes a network request for communication information of a signaling server so as to expect to obtain a communication address of the other terminal;

b, the signaling server requests the other terminal for the communication request of one terminal, and then obtains the communication address of the other terminal;

and C, one terminal establishes communication between the two terminals after the other terminal passes the acquired communication address of the other terminal.

D, the signaling server establishes communication with the application server;

e, the signaling server communicates with the application server and acquires resource address information from the application server;

f, the signaling server forwards the obtained resource address information to one terminal and the other terminal;

g, one terminal and the other terminal establish an application server of the application server through the obtained resource address information;

the communication information comprises any one or more combinations of communication objects, communication types or protocol conditions.

Wherein, the communication address also comprises an IP address, a communication port or a domain name.

The application server, the signaling server and at least two pieces of terminal equipment establish communication links in an authenticated communication mode.

A communication method of a signaling server comprises the following steps: the terminal equipment is equipment A and equipment B, the application server is a resource server, and the communication steps are as follows:

a, initiating a request for establishing communication with a device B to a signaling server by a device A;

b, the signaling server forwards the communication request of the equipment A to the equipment B;

c, the device B returns an instruction of agreeing to establish communication connection to the signaling server;

d, the signaling server sends a communication request of the equipment A and the equipment B to the resource server;

e, the resource server returns the appointed communication address to the signaling server;

f, the signaling server returns the appointed communication address to the equipment A and the equipment B;

and G, establishing communication with the device B in the resource server by the device A through the specified address.

A communication method for acquiring resources by multiple devices comprises the following steps: the terminal equipment is equipment A and equipment B, the application server is a media server, and the communication steps are as follows:

a, equipment A sends a resource data request to a signaling server;

b, the signaling server forwards the resource data request of the equipment A to the equipment B;

c, the device B sends an application to a signaling server to acquire a resource uploading address;

d, the signaling server requests the media server to upload the resources of the equipment B;

e, the equipment B returns the resource uploading address or the resource request address to the signaling server;

f, the signaling server returns the resource uploading address or the resource request address to the equipment A or the equipment B;

g, the device B establishes communication with the media server and uploads resources to the media server;

and H, establishing communication between the equipment A and the media server, and downloading and acquiring the resource data of the equipment B.

Compared with the prior art, the beneficial effects are: hardware equipment in elevator thing networking is applied to signaling server, including data acquisition equipment, data interchange between equipment such as emergency rescue terminal and emergency rescue seat, data acquisition equipment sends the elevator real-time operation data of gathering for emergency rescue terminal and emergency rescue seat through signaling server, arrival rate and the great improvement of success rate, compare other elevator internet of things, the success rate that the passenger asked for help to the rescue center when the dilemma appears in the elevator improves greatly, millisecond-level time delay simultaneously, the real-time of also letting whole two-way communication process obtain the assurance.

Drawings

Fig. 1-2 are schematic structural diagrams of a conventional communication method in the background art;

FIG. 3 is a schematic diagram of a communication structure according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a communication structure according to embodiment 3;

fig. 5 is a schematic diagram of a communication scheme in embodiment 4.

Detailed Description

The drawings are for illustrative purposes only and are not to be construed as limiting the patent; for the purpose of better illustrating the embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted. The positional relationships depicted in the drawings are for illustrative purposes only and are not to be construed as limiting the present patent.

Example 1: referring to fig. 3-5, a signaling server based on the internet of things of an elevator comprises an application server, a signaling server and at least two terminal devices.

The number of the terminal devices can be two or more, and the terminal devices can be mobile phone terminals, elevator display screen terminals or other media or transaction processing terminals.

The signaling server, the application server and the terminal device establish communication through an ethernet and a protocol, and based on the embodiment, the application server may be a video application server, a monitoring application server or other media servers, and servers such as file copying, storing, reading, and the like, all in the specific application thereof.

In the above embodiments, the ethernet network includes a wired connection or an ethernet communication established by using a mobile internet.

The information server coordinates and transmits the scheduling management of the resource to the communication type, data mode and transmission appointed protocol of the terminal equipment or the application server.

The signaling server, the application server and the terminal equipment verify the smoothness or the communication state of network communication through low-consumption heartbeat detection, for the detection process, the signaling server can be actively sent by the terminal equipment at regular time or the signaling server can be actively sent to the terminal equipment or the application server, the sending interval can be freely set, and the corresponding protocol can use a public low-flow communication protocol or a private communication protocol.

And the terminal equipment or the application server actively sends communication address or resource data information to the signaling server.

For the resource data information, different types of parameters or address information and the like are provided according to different application servers.

The signaling server can efficiently schedule and utilize resources in the communication process between the devices under the condition of ensuring safety, thereby establishing an elastic capacity increasing mechanism for the increase of the devices with the order of magnitude, realizing the most light-weight device investment and generating the most efficient data communication effect. Because the basic communication with the signaling system is actively initiated by the equipment or the application, the communication between the equipment is eliminated and must be configured safely or set by a route, thereby solving the problem of communication environment formed by constructing a multi-layer complex network, and realizing the complete separation of data communication from a network connection mode and the limitation of communication hardware and a communication access mode. As long as the network can be used in public network, all data communication exchange can be realized no matter what network structure is.

Example 2: a communication method established by any one of the signaling servers comprises the following steps: the method comprises the following steps:

a, when one terminal and the other terminal need to initiate communication for data exchange, the one terminal makes a network request for communication information of a signaling server so as to expect to obtain a communication address of the other terminal;

b, the signaling server requests the other terminal for the communication request of one terminal, and then obtains the communication address of the other terminal;

and C, one terminal establishes communication between the two terminals after the other terminal passes the acquired communication address of the other terminal.

D, the signaling server establishes communication with the application server;

e, the signaling server communicates with the application server and acquires resource address information from the application server;

f, the signaling server forwards the obtained resource address information to one terminal and the other terminal;

and G, establishing the application server of the application server by one terminal and the other terminal through the obtained resource address information.

The communication information comprises any one or more combinations of communication objects, communication types or protocol conditions.

The communication address also includes an IP address, a communication port or a domain name, or configures address information of other corresponding communication interfaces according to requirements of different communication protocols and modes.

The application server, the signaling server and at least two pieces of terminal equipment establish communication links in an authenticated communication mode.

The signaling server establishes management service of intermediate communication, and a communication control system for transaction management must be constructed to realize cross-platform communication connection and data transmission of multiple devices and multiple applications due to the diversity of communication and data transmission modes of applications and different device functions in the elevator Internet of things.

The communication types, data modes and transmission appointed protocols of all the devices are coordinated and the scheduling management of forwarding resources is carried out by the constructed intermediate service, so that the communication efficiency and the efficient utilization of exchange resources among the devices are realized. And the signaling server is accessed in an authentication service mode, so that the safety and the reliability of equipment access are ensured. Meanwhile, the signaling server adopts low-consumption heartbeat detection to verify the smoothness degree of network communication, so that the real-time online state of equipment or application can be effectively monitored and managed.

Example 3: a communication method of a signaling server comprises the following steps: the terminal equipment is equipment A and equipment B, the application server is a resource server, and the communication steps are as follows:

a, initiating a request for establishing communication with a device B to a signaling server by a device A;

b, the signaling server forwards the communication request of the equipment A to the equipment B;

c, the device B returns an instruction of agreeing to establish communication connection to the signaling server;

d, the signaling server sends a communication request of the equipment A and the equipment B to the resource server;

e, the resource server returns the appointed communication address to the signaling server;

f, the signaling server returns the appointed communication address to the equipment A and the equipment B;

and G, establishing communication with the device B in the resource server by the device A through the specified address.

Example 4: a communication method for acquiring resources by multiple devices comprises the following steps: the terminal equipment is equipment A and equipment B, the application server is a media server, and the communication steps are as follows:

a, equipment A sends a resource data request to a signaling server;

b, the signaling server forwards the resource data request of the equipment A to the equipment B;

c, the device B sends an application to a signaling server to acquire a resource uploading address;

d, the signaling server requests the media server to upload the resources of the equipment B;

e, the equipment B returns the resource uploading address or the resource request address to the signaling server;

f, the signaling server returns the resource uploading address or the resource request address to the equipment A or the equipment B;

g, the device B establishes communication with the media server and uploads resources to the media server;

and H, establishing communication between the equipment A and the media server, and downloading and acquiring the resource data of the equipment B.

Hardware equipment in elevator thing networking is applied to signaling server, including data acquisition equipment, data interchange between equipment such as emergency rescue terminal and emergency rescue seat, data acquisition equipment sends the elevator real-time operation data of gathering for emergency rescue terminal and emergency rescue seat through signaling server, arrival rate and the great improvement of success rate, compare other elevator internet of things, the success rate that the passenger asked for help to the rescue center when the dilemma appears in the elevator improves greatly, millisecond-level time delay simultaneously, the real-time of also letting whole two-way communication process obtain the assurance.

Example 5: the application of the communication method in an elevator rescue system comprises a rescue terminal, an emergency rescue seat terminal, a signaling server and a video application server, wherein when video communication needs to be established between the rescue terminal and the emergency rescue seat terminal:

and A, the rescue terminal acquires the communication address of the emergency rescue seat terminal from the signaling server.

And B, the signaling server requests the emergency rescue seat terminal to obtain the communication address of the emergency rescue seat terminal and forwards the communication address to the rescue terminal.

C, the rescue terminal establishes communication between the emergency rescue seat terminal and the rescue terminal according to the obtained communication address of the emergency rescue seat terminal;

d, the signaling server establishes communication with the video server;

e, the signaling server communicates with the video server and acquires resource address information from the video server;

f, the signaling server forwards the obtained resource address information to an emergency rescue seat terminal and a rescue terminal;

and G, the emergency rescue seat terminal and the rescue terminal establish the video service of the video server through the obtained resource address information.

It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. A signaling server based on an elevator Internet of things comprises an application server, a signaling server and at least two pieces of terminal equipment, wherein the signaling server, the application server and the terminal equipment are communicated through an Ethernet and an agreed protocol.

2. The signaling server based on the internet of things of elevators according to claim 1, wherein: the information server coordinates and transmits the scheduling management of the resource to the communication type, data mode and transmission appointed protocol of the terminal equipment or the application server.

3. The elevator internet of things based signaling server of claim 2, wherein: and the signaling server, the application server and the terminal equipment verify the smoothness or the communication state of network communication through low-consumption heartbeat detection.

4. The signaling server based on the internet of things of elevators according to claim 3, wherein: and the terminal equipment or the application server actively sends communication address or resource data information to the signaling server.

5. A method of communication established by a system according to any of claims 1 to 4: the method comprises the following steps:

a, when one terminal and the other terminal need to initiate communication for data exchange, the one terminal makes a network request for communication information of a signaling server so as to expect to obtain a communication address of the other terminal;

b, the signaling server requests the other terminal for the communication request of one terminal, and then obtains the communication address of the other terminal;

and C, one terminal establishes communication between the two terminals after the other terminal passes the acquired communication address of the other terminal.

6. The communication method of claim 5, wherein:

d, the signaling server establishes communication with the application server;

e, the signaling server communicates with the application server and acquires resource address information from the application server;

f, the signaling server forwards the obtained resource address information to one terminal and the other terminal;

and G, one terminal and the other terminal establish the application service of the application server through the obtained resource address information.

7. The communication method of claim 6, wherein: the communication information comprises any one or more combinations of communication objects, communication types or protocol conditions.

8. The communication method of claim 5, wherein: the communication address also comprises an IP address, a communication port or a domain name.

9. A communication method of a signaling server comprises the following steps: the terminal equipment is equipment A and equipment B, the application server is a resource server, and the communication steps are as follows:

a, initiating a request for establishing communication with a device B to a signaling server by a device A;

b, the signaling server forwards the communication request of the equipment A to the equipment B;

c, the device B returns an instruction of agreeing to establish communication connection to the signaling server;

d, the signaling server sends a communication request of the equipment A and the equipment B to the resource server;

e, the resource server returns the appointed communication address to the signaling server;

f, the signaling server returns the appointed communication address to the equipment A and the equipment B;

and G, establishing communication with the device B in the resource server by the device A through the specified address.

10. A communication method for acquiring resources by multiple devices comprises the following steps: the terminal equipment is equipment A and equipment B, the application server is a media server, and the communication steps are as follows:

a, equipment A sends a resource data request to a signaling server;

b, the signaling server forwards the resource data request of the equipment A to the equipment B;

c, the device B sends an application to a signaling server to acquire a resource uploading address;

d, the signaling server requests the media server to upload the resources of the equipment B;

e, the equipment B returns the resource uploading address or the resource request address to the signaling server;

f, the signaling server returns the resource uploading address or the resource request address to the equipment A or the equipment B;

g, the device B establishes communication with the media server and uploads resources to the media server;

and H, establishing communication between the equipment A and the media server, and downloading and acquiring the resource data of the equipment B.

Images