CN103986751A - Far-end control sequence/parallel device bridging system, device and control method - Google Patents

Abstract

The invention discloses a far-end control sequence/parallel device bridging system, device and control method. The far-end control sequence/parallel device bridging system is characterized in that the system comprises a mobile device, a target device, a wireless network router and the bridging device. The mobile device is used for sending out control commands or receiving response information. The wireless network router comprises a first network interface which is connected with the bridging device, and the wireless network router is used for transferring the control commands or the response information. The bridging device comprises a processing unit, a heterogeneous device interface and a second network interface. The processing unit is coupled with the heterogeneous device interface and the second network interface. The first network interface of the wireless network router is connected to the second network interface of the bridging device, the heterogeneous device interface is connected to a control serial port of the target device, and the processing unit receives the control commands and transfers the control commands to the target device through the heterogeneous device interface.

Description

Bridge system, the equipment and control method of far-end control sequence/equipment arranged side by side

Technical field

The present invention relates to control device, system and its processing method, be specifically related to bridge system, the equipment and control method of a kind of far-end control sequence/equipment arranged side by side.

Background technology

Along with the fast development of internet, the function that many electronic equipments also add far-end to control.The player for example with video/audio function can see through the mode at networking, the object of playing so as to reaching far-end.Insecure transmission characteristic for networking is to be used in image transmission or transfer voice.Because user is acceptable for the loss of the audiovisual materials of small fragment.But be not that all electronic equipments are all applicable to far-end control.This is because agreement and the environment of network transmission exist uncertain factor.In other words, networking package may have and lose the risk of falling in the process of transmission.So the electronic equipment of far-end may receive incomplete control command.

Once there is package, lose, may there is the behavior of wrong operation or lasting wait in the electronic equipment of far-end.And the faulty operation of electronic equipment, the little power consumption that may cause machine, greatly may cause public security unexpected.Particularly to sequence serial ports (serial port) and serial ports (parallel port) arranged side by side, because those control the correct driving of control command ability that interfaces need to be complete.Therefore incomplete control command will certainly make the mistake to the electronic equipment of aforementioned interface control or damage.

In addition, movable computer is for can realize compact object.Described movable computer may be mobile phone or panel computer.The manufacturer of exploitation removes the kind of external interface as much as possible.Therefore general movable computer is cannot see through wired mode to control outside peripheral equipment.For instance, there is the card reader (barcode scanner) of RS-232 or the dot matrix printer of serial ports (Parallel Port) arranged side by side.As mentioned before, those Ports are not set in movable computer, and in its operating system, further do not define the type of drive of Port yet.Therefore movable computer is directly to drive described peripheral equipment.

Summary of the invention

Technical problem to be solved by this invention is to provide bridge system, the equipment and control method of a kind of far-end control sequence/equipment arranged side by side, can be applied in the mobile device of the external interface of existing not tool, and provide mobile device to control the I/O of remote target equipment.

In order to address the above problem, the present invention has disclosed the bridge system of a kind of far-end control sequence/equipment arranged side by side, it is characterized in that comprising: a mobile device, and it sends one and controls order or receive a response message; One target device, has a control serial ports, and this target device receives this through this control serial ports and controls order and carry out corresponding action, and this target device sees through this and controls this response message that serial ports sends produce correspondence; One Wi-Fi router, has one first networking interface, and this Wi-Fi router receives from this of this mobile device and controls order, or forwards this response message; One bridging device, it has a processing unit, a heterogeneous equipment interface and one second networking interface, this processing unit is coupled to this heterogeneous equipment interface and this second networking interface, this the first networking interface of this Wi-Fi router is connected in this second networking interface, this heterogeneous equipment interface is connected in this control serial ports of this target device, and this processing unit receives this and controls order and see through this heterogeneous equipment interface and this is controlled to order be forwarded to this target device or this target device.

The present invention has disclosed the wireless bridging equipment of a kind of far-end control sequence/equipment arranged side by side, it is characterized in that comprising: a networking interface, and reception comes from one of a mobile device and controls order or send a response message to this mobile device; One heterogeneous equipment interface, is connected in a target device, and this heterogeneous equipment interface transmits this controls order or this response message; One processing unit, it is coupled to this networking interface and this heterogeneous equipment interface, this processing unit receives this and controls order, this processing unit is controlled order through this heterogeneous equipment interface this and is forwarded to this target device, or this processing unit drives this networking interface to send this response message that comes from this target device.

The present invention has disclosed the control method of a kind of far-end control sequence/equipment arranged side by side, it is characterized in that comprising the following steps: a bridging device is electrically connected at respectively to a Wi-Fi router and a target device; By a mobile device, set a plurality of connection channels; This mobile device is controlled order according to those connection channels to one and is carried out segmentation and each segmentation result is encapsulated as to one first networking package, and those are sent to this Wi-Fi router; This Wi-Fi router forwards those the first networking packages to this bridging device; This bridging device is recombinated and is obtained this those the first networking packages and controls order, and this is controlled to order is sent to this target device; By this target device, carry out this and control order.

Compared with prior art, the present invention can obtain and comprise following technique effect:

1) far-end control sequence of the present invention/bridge system, the equipment and control method of equipment can be applied in existing mobile device side by side, and do not need mobile device to carry out the repacking of hardware.

2) and the present invention see through Wi-Fi and networking of the present invention conversion characteristic, for providing mobile device can carry out to target device the control processing of I/O.

Certainly, implement arbitrary product of the present invention and must not necessarily need to reach above-described all technique effects simultaneously.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide a further understanding of the present invention, forms a part of the present invention, and schematic description and description of the present invention is used for explaining the present invention, does not form inappropriate limitation of the present invention.

Fig. 1 is system architecture schematic diagram of the present invention.

Fig. 2 is operation workflow schematic diagram of the present invention.

Fig. 3 A is that order schematic diagram is controlled in transmission of the present invention.

Fig. 3 B is reception response message schematic diagram of the present invention.

Embodiment

Please refer to shown in Fig. 1, it is system architecture schematic diagram of the present invention.Far-end control sequence of the present invention/bridge system of equipment comprises mobile device 110, Wi-Fi router one 20 (Access Point is called for short AP), bridging device 130, target device 140 and external equipment 150 side by side.The kind of mobile device 110 can be but not be defined as notebook computer (notebook), panel computer (tablet) or mobile phone (mobile phone).

Mobile device 110 of the present invention has processor 111, storage element 112, display unit 113 and the first network transmission unit 114.Processor 111 is electrically connected at storage element 112, display unit 113 and the first network transmission unit 114.Processor 111 sees through the first network transmission unit 114 transmissions and controls order to Wi-Fi router one 20, or receives the response message that comes from Wi-Fi router one 20.

Storage element 112 storage brokers 115.Processor 111 broker 115 that can bring into operation after startup.Broker 115 is except in order to search bridging device 130, to send and to control order or to receive response message, more for aforesaid, controls the pre-process that order is disassembled.And broker 115 can be application program independently, also can in be built among operating system (Operation System).The classification information that processor 111 sends according to bridging device 130 is sent broker 115, for setting up address space (address space) and a plurality of connection channels (channel).Broker 115 sees through address space and a plurality of connection channels in order to the transmission means of the bus-bar between simulated target equipment 140 and PC.Display unit 113 is for showing operation interface and the relevent information of broker 115 or other applications.

When mobile device 110 sends while controlling order (or relevant processing data) to target device 140, broker 115 can carry out to controlling order the processing of segmentation.Broker 115 of the present invention can carry out segmentation to controlling order according to the quantity of connection channels.So broker 115 can be exported and the segmentation result of connection channels equal number.Broker 115 is according to controlling order and then obtaining each corresponding data side-play amount (offset) after cutting.

For conveniently illustrating, after cutting, control order (or controlling data), the part of each cutting is defined as to cutting block.Broker 115 by cutting block and corresponding data side-play amount see through connection channels sequentially be converted to the first networking package, and the first networking package is sent to Wi-Fi router one 20.

Bridging device 130 is except being electrically connected at target device 140 and Wi-Fi router one 20, and bridging device 130 also can optionally connect external equipment 150.The networking package that Wi-Fi router one 20 sends for transmitting mobile device 110 and bridging device 130.Wi-Fi router one 20 has Wi-Fi transmission unit 121 and the first networking interface 122.Wi-Fi router one 20 sees through Wi-Fi transmission unit 121 while obtaining the networking package that comes from mobile device 110, and Wi-Fi router one 20 can see through the first networking interface 122 by those networking packages be sent to bridging device 130.If Wi-Fi router one 20 receives the networking package that comes from bridging device 130,20 of Wi-Fi router ones are sent to mobile device 110 by networking package.

Bridging device 130 comprises the second networking interface 131, the 3rd networking interface 132, heterogeneous equipment interface 133 and processing unit 134.Processing unit 134 is electrically connected at the second networking interface 131, the 3rd networking interface 132 and heterogeneous equipment interface 133.The first networking interface 122 is electrically connected at the second networking interface 131.The second networking interface 131 is for receiving the networking package of controlling order that comes from mobile device 110, or transmission response message is to Wi-Fi router one 20.The 3rd networking interface 132 is for connecting external equipment 150, and external equipment 150 may be another bridging device 130 or PC.When if the first networking package that processing unit 134 judgements are imported into does not belong to bridging device 130, processing unit 134 can see through the 3rd networking interface 132 and forward the first networking package.

Heterogeneous equipment interface 133 is connected in the control serial ports 141 of target device 140.The kind of heterogeneous equipment interface 133 is sequence serial ports (serial port) or serial ports (parallel port) arranged side by side.Control the corresponding heterogeneous equipment interface 133 of kind of serial ports 141.Bridging device 130 of the present invention can have single sequence serial ports or a serial ports arranged side by side, also can have sequence serial ports and serial ports arranged side by side simultaneously.Processing unit 134 combines and obtains controlling order by being loaded with the networking package of controlling order.

Bridging device 130 is obtained the first corresponding networking package.Processing unit 134 is recorded data side-play amount according to connection channels and is sequentially judged that whether the order of the first received networking package is correct.Processing unit 134 is recombinated to the first networking package according to connection channels and data side-play amount.The processing unit 134 of bridging device 130 operates accordingly according to controlling command driven target device 140.

For clearly demonstrating the controlling of target device 140, also please please refer to shown in Fig. 2, it comprises the following steps for operation transmission method of the present invention:

Step S211: bridging device is electrically connected at respectively to Wi-Fi router and target device;

Step S212: mobile device operation broker, broker is searched the bridging device in networking;

Step S213: bridging device is obtained after equipment searching order, and bridging device returns to identification information;

Step S214: mobile device receives the identification information of bridging device, for setting address space and a plurality of connection channels;

Step S215: mobile device carries out segment processing according to address space and these connection channels to controlling order, and each segmentation result is encapsulated as to the first networking package;

Step S216: mobile device sees through networking these the first networking packages are sent to Wi-Fi router and bridging device;

Step S217: bridging device is recombinated so as to obtaining controlling order according to the order of the connection channels of these the first networking packages;

Step S218: bridging device will be controlled order and forward to target device;

Step S219: target device is carried out and controlled order, and exports response message to bridging device;

Step S220: bridging device carries out segmentation according to the quantity of connection channels to response message, and the result of each segmentation is encapsulated, so as to exporting a plurality of the second networking packages;

Step S221: these the second networking packages are sent to mobile device; And

Step S222: mobile device combines according to the order of the second networking package, and obtain corresponding response message.

First, after mobile device 110 starts, mobile device 110 can start to carry out broker 115.Broker 115 sees through the first network transmission unit 114 and searches whether there is bridging device 130.For local-area network, broker 115 can see through the mode of networking broadcast and inquire whether there is bridging device 130.For internet, broker 115 can see through known networking address (IP Address) and carry out communication.Please coordinate shown in Fig. 3 A and Fig. 3 B, it is respectively operation chart of the present invention simultaneously.

When bridging device 130, obtain after equipment searching order, bridging device 130 can return to corresponding identification information.Identification information records the model of serial ports kind, serial ports quantity, electronic equipment or the bridging device 130 of bridging device 130.Mobile device 110 is obtained after identification information, and mobile device 110 can produce address space and a plurality of connection channels according to identification information.

The memory body size of address space is to determine according to the kind of target device 140.And the quantity of connection channels can determine according to target device 140, or be preset to fixed qty.Address space is the memory body space when connecting mobile device 110 for simulated target equipment 140.Because target device 140 of the present invention is to see through networking to be connected in mobile device 110, generation address space that therefore need to be corresponding in mobile device 110, the object that provides mobile device 110 to carry out addressing access.

When mobile device 110 sends while controlling order (or controlling data) to target device 140, broker 115 can carry out to controlling order the processing of segmentation.Broker 115 of the present invention can carry out segmentation to controlling order according to the quantity of connection channels.So broker 115 can be exported and the segmentation result of connection channels equal number.Broker 115 is according to controlling order and then obtaining each corresponding data side-play amount (offset) after cutting.The order of transmitting due to each data side-play amount is controlled, and it is hereby ensured that two sides (meaning is mobile device 110 and target device 140) of transmitting-receiving can confirm the order receiving.And the calculating of data side-play amount can see through hardware mode and realizes, and the speed processed of hardware is compared to the speed of soft material layer parsing Calais efficient more.

Then, Wi-Fi router one 20 is obtained after the first networking package, and Wi-Fi router one 20 can be sent to bridging device 130 by the first networking package.Bridging device 130 determines those the first networking packages of restructuring or the first networking package is forwarded to external equipment 150 according to the content of the first networking package.Bridging device 130 combines and obtains controlling order by the first networking package.Bridging device 130 is according to controlling command driven institute linking objective equipment 140.

At target device 140, according to controlling after the running that order is correlated with, target device 140 produces response message by the result after running.Target device 140 is sent to bridging device 130 by response message.130 pairs of response message of bridging device are carried out aforesaid cutting processing, and obtain a plurality of the second networking packages.Bridging device 130 sends the second networking package to Wi-Fi router one 20 again, and is transferred to mobile device 110 by Wi-Fi router one 20.Mobile device 110 is obtained after the second networking package, and 110 pairs of the second networking packages of mobile device are recombinated and obtain corresponding response message.

The present invention, except the aforesaid transmission of controlling order and data, also can carry out identical cutting and transmission process for interrupt request.The present invention can see through different connection channels and be used for transmitting various interrupt request (interrupt request, IRQ).By previously described load mode, can guarantee that target device 140 is for the reception order of interrupt request.So target device 140 can be processed accordingly according to correct interrupt request.

The present invention proposes the equipment that a kind of far-end control sequence/bridge system, the equipment and control method of equipment make script not possess sequence serial ports or serial ports arranged side by side side by side can realize by the present invention the operation of corresponding device, and does not need the bottom of mobile device 110 to change accordingly.

Described device is corresponding with aforesaid method flow description, and weak point, with reference to the narration of said method flow process, repeats no longer one by one.Above-mentioned explanation illustrates and has described some preferred embodiments of the present invention, but as previously mentioned, be to be understood that the present invention is not limited to disclosed form herein, should not regard the eliminating to other embodiment as, and can be used for various other combinations, modification and environment, and can, in invention contemplated scope described herein, by technology or the knowledge of above-mentioned instruction or association area, change.And the change that those skilled in the art carry out and variation do not depart from the spirit and scope of the present invention, all should be in the protection range of claims of the present invention.

Claims (9)

1. the bridge system for equipment of far-end control sequence/side by side, is characterized in that comprising:

One mobile device, it sends one and controls order or receive a response message;

One target device, has a control serial ports, and this target device receives this through this control serial ports and controls order and carry out corresponding action, and this target device sees through this and controls this response message that serial ports sends produce correspondence;

One Wi-Fi router, has one first networking interface, and this Wi-Fi router receives from this of this mobile device and controls order, or forwards this response message; And

One bridging device, it has a processing unit, a heterogeneous equipment interface and one second networking interface, this processing unit is coupled to this heterogeneous equipment interface and this second networking interface, this the first networking interface of this Wi-Fi router is connected in this second networking interface, this heterogeneous equipment interface is connected in this control serial ports of this target device, and this processing unit receives this and controls order and see through this heterogeneous equipment interface and this is controlled to order be forwarded to this target device or this target device.

2. the bridge system of equipment of far-end control sequence as claimed in claim 1/side by side, it is characterized in that: described bridging device more comprises one the 3rd networking interface, it is connected in an external equipment, and the kind that this processing unit is controlled order according to this determines that this is controlled to order is forwarded to this external equipment.

3. the bridge system of far-end control sequence as claimed in claim 2/equipment arranged side by side, is characterized in that: described external equipment is another this bridging device or a network equipment, and this control serial ports is a sequence serial ports or a serial ports arranged side by side.

4. the bridge system of equipment of far-end control sequence as claimed in claim 1/side by side, it is characterized in that: described mobile device is set a plurality of connection channels, and according to those connection channels, this is controlled to order and carry out segmentation and each segmentation result is encapsulated as to one first networking package, this mobile device sees through this Wi-Fi unit and sends those the first networking packages, the order of those the first networking packages that this bridging device judgement receives, and combine those the first networking packages and restore as this and control order, this bridging device is controlled this electronic equipment of command driven according to this.

5. the wireless bridging equipment for equipment of far-end control sequence/side by side, is characterized in that comprising:

One networking interface, reception comes from one of a mobile device and controls order or send a response message to this mobile device;

One heterogeneous equipment interface, is connected in a target device, and this heterogeneous equipment interface transmits this controls order or this response message; And

One processing unit, it is coupled to this networking interface and this heterogeneous equipment interface, this processing unit receives this and controls order, this processing unit is controlled order through this heterogeneous equipment interface this and is forwarded to this target device, or this processing unit drives this networking interface to send this response message that comes from this target device.

6. the bridging device of equipment of far-end control sequence as claimed in claim 5/side by side, it is characterized in that: described mobile device is set a plurality of connection channels, and according to those connection channels, this is controlled to order and carry out segmentation and each segmentation result is encapsulated as to one first networking package, this mobile device sees through this networking interface and sends those the first networking packages, the order of those the first networking packages that this bridging device judgement receives, and combine those the first networking packages and restore as this and control order, this bridging device is controlled this electronic equipment of command driven according to this.

7. the bridging device of equipment of far-end control sequence as claimed in claim 5/side by side, it is characterized in that this bridging device separately comprises a networking interface, it is connected in this processing unit and an external equipment, and the kind that this processing unit is controlled order according to this determines that this is controlled to order is forwarded to this external equipment or this target device.

8. the control method for equipment of far-end control sequence/side by side, is characterized in that comprising the following steps:

One bridging device is electrically connected at respectively to a Wi-Fi router and a target device;

By a mobile device, set a plurality of connection channels;

This mobile device is controlled order according to those connection channels to one and is carried out segmentation and each segmentation result is encapsulated as to one first networking package, and those are sent to this Wi-Fi router;

This Wi-Fi router forwards those the first networking packages to this bridging device;

This bridging device is recombinated and is obtained this those the first networking packages and controls order, and this is controlled to order is sent to this target device; And

By this target device, carry out this and control order.

9. the networking control method of remote equipment as claimed in claim 8, is characterized in that the step of setting connection channels more comprises: described mobile device produces an address space and those connection channels according to an identification information of this target device.