CN104243918A - Robot monitoring system automatically patrolling based on Bluetooth positioning - Google Patents

Abstract

The invention discloses a robot monitoring system automatically patrolling based on Bluetooth positioning. A patrolling route is established in advance through a Bluetooth positioning system, monitoring points set by a user in advance are provided, and a robot can patrol all the monitoring points according to the preset image route and send the shot video to a far-end monitor. Timing operation can be set, and the robot is ordered to do the regular patrolling action regularly. Original manual patrolling is effectively replaced by robot patrolling. In addition, when the robot encounters abnormal conditions or people, the robot can provide effective identification for the far-end monitor to achieve the purpose of warning and information providing. Face recognition can be applied to the robot monitoring system so that people on the site and the number of people can be determined. Thus, robot patrolling can effectively replace the traditional patrolling. Arranging of a large number of monitors at the fixed points in the prior art is not needed any more, the monitoring points can be selected according to needs, and the monitoring angle and height can be adjusted through the actions of the head and the neck of the robot.

Description

Application bluetooth locates the robot monitoring system automatically gone on patrol

Technical field

Present invention is directed to supervisory control system, especially a kind of application bluetooth locates the robot monitoring system automatically gone on patrol.

  

Background technology

Supervisory control system general at present builds mode, is all to select multiple fixed location in a space, places watch-dog, with the situation allowing monitor staff can monitor whole space at any time in these fixed points.Watch-dog is placed in multiple positions such as in warehouse or household, is more distally monitored by monitor staff.When needing, the spatial dimension of monitoring is larger, just needs to install more watch-dogs, can contain whole space to allow monitoring range; On the other hand, when the facility thing in space is more, the visual dead angle in monitoring also can be more, and this situation also needs to install multiple watch-dog, to avoid the dead angle producing monitoring.

When required watch-dog quantity is more, cost also can be higher, and also higher for the wiring cost connecting watch-dog, makes overall surveillance cost increase.And because watch-dog is all be placed on fixing position, if invader learns the position of these watch-dogs in advance, just likely allow invader avoid monitoring range, or destroy these watch-dogs, make supervisory control system occur dead angle, and allow invader be able to monitoring instruction space.

General supervisory control system all needs to be monitored at any time by monitor staff, could the instant situation controlling whole monitoring space.When watch-dog is more or monitoring environment is more complicated, just need more monitoring human resources, allow overall supervisory control system cost increase.

Due to the progress that the technology of present robot is suitable, and can application remoting technology robot be allowed to move freely in the space of setting easily.Add the progress of Bluetooth technology in addition, bluetooth identification object position in space can be applied.These technology have developed into and can drop into practical degree.

Therefore this case wishes that a kind of brand-new applied robot of proposition and Bluetooth technology carry out the operation monitored, to solve the many defects on previous monitoring technique.

Summary of the invention

So object of the present invention is solve the problem on above-mentioned known technology, propose a kind of application bluetooth and locate the robot monitoring system automatically gone on patrol, its advantage is that application bluetooth navigation system sets up patrol path in advance, user is provided to preset control point, therefore user only needs instruction robot automatically to go on patrol, this robot can carry out the operation of going on patrol to each control point according to the image path preset, and be sent on the watch-dog of far-end by shot with video-corder image.Also fixed cycle operator can be set, and the patrol action making this robot fix at a fixed time.Effectively to replace the patrol of original personnel.Moreover run into when having unusual condition or personnel, effective identification also can be provided to give the supervisor of far-end, reach the object that warning and information provide.Therefore robot effectively can replace traditional patrol operation.Moreover also a large amount of monitors must be set on fixing point unlike in known techniques, in this case, monitoring point can optionally be selected, and can by the angle of the action adjustment supervision of incidence and height.

For achieving the above object, proposing a kind of application bluetooth in the present invention and locating the robot monitoring system automatically gone on patrol, comprising:

One central controller, comprise a bluetooth Transmit-Receive Unit and a specific wireless signal transceiving unit, this bluetooth Transmit-Receive Unit is for receiving and dispatching bluetooth signal; This specific wireless signal transceiving unit is for receiving and dispatching particular communication signal, and it is the person that is suitable for receiving image transmission in time;

Multiple default Bluetooth transceiving, the corner that configuration is separated in space separately, the covering scope of signal all gives suitable separation each other, can receive and dispatch the bluetooth signal from multiple controlled electronic device;

Locating unit, be built in this central controller in system, bluetooth Transmit-Receive Unit via this central controller receives the bluetooth signal of each Bluetooth transceiving, and the bluetooth coordinate in bluetooth signal source is set up out according to the strong and weak size of bluetooth signal, this bluetooth signal system sent by the controlled electronic device at scene, wherein this positioning unit comprises a comparative device, include comparison logic, the plurality of Bluetooth transceiving can be received bluetooth signal and carry out intersection comparison calculation according to intensity size, to summarize the bluetooth coordinate position of this bluetooth signal;

One bluetooth map unit, be built in this central controller in system, for setting up bluetooth map, system utilizes the bluetooth coordinate of this positioning unit, based on the signal covering scope of the plurality of Bluetooth transceiving, set up out the on-the-spot bluetooth coordinate of controlled electronic device and the corresponding relation of actual geographic position, and this bluetooth coordinate is recorded on this bluetooth map, therefore can learn this actual geographic location point representated by bluetooth coordinate; This bluetooth map unit comprises, a whereabouts record cell, can to its movement track of controlled electronic device record detected and position, and therefore observable goes out the track record of this controlled electronic device, to reach the object of optimization management;

One robot, wherein this robot comprises following elements:

One robot fuselage, comprises main part, and the incidence of extending above this main part, and actuating unit;

One camera head, it comprises camera lens system and is arranged on this incidence, can make a video recording to context;

One image processor, system receives the image of shooting with video-corder from this camera head, line number of going forward side by side position image processing, and is stored in a memory body, be built in this image processor in this memory system, wherein the image data system of this image processor transmits via this specific wireless signal transceiving unit;

One robot signal transmitting and receiving machine, system is arranged on another position of this robot fuselage, connect this image processor, wherein this robot signal transmitting and receiving machine comprises bluetooth signal transmission-receiving function and the wireless signal transmission-receiving function being suitable for this specific wireless signal transceiving unit, after the plurality of Bluetooth transceiving receives the bluetooth signal of this robot signal transmitting and receiving machine, the positioning unit of this central controller can be utilized to locate the position of this robot; This robot signal transmitting and receiving machine can send wireless signal to this specific wireless signal transceiving unit simultaneously, to be gone out by the data transmission of this image processor;

One path setting unit, the bluetooth map unit in this central controller is built in system, this path setting unit can allow the course of user planning robot in the reconnaissance range of the plurality of default Bluetooth transceiving, this course system uses this bluetooth coordinate to define route, wherein user still can set multiple control point in this course, automatically can send out bluetooth signal when robot arrives this control point to this central controller, allow system learn the current position of robot.

Described application bluetooth locates the robot monitoring system automatically gone on patrol, and wherein still comprises a sensing unit, is built in this central controller or in being in robot fuselage; The actuating unit signal of this sensing unit and this robot links, and advances and control the direct of travel of this robot to order this robot;

The direction vector data in the course of this path setting unit is included in this sensing unit; This sensing unit can march to down any direction according to the bluetooth coordinate calculating robot of this robot, then the direct of travel of this robot can be adjusted to calculated direction by this sensing unit; In whole process, constantly revise and the direct of travel controlling this robot, to confirm that this robot does not depart from the course of specifying.

Described application bluetooth locates the robot monitoring system automatically gone on patrol, wherein this sensing unary system utilizes the method for image identification to control the direct of travel of this robot, the graphic materials storehouse of all control points in the course that this sensing unit includes this path setting unit, the wherein camera head shooting of this sensing unit in robot by meeting this robot of instruction during the plurality of control point, and after this shooting record material and this graphic materials storehouse are carried out image compare of analysis, automatic generation revision directive, continuous correction and the direct of travel controlling this robot, to confirm that this robot does not depart from the course of specifying, wherein this shooting record material utilizes this robot signal transmitting and receiving machine to be transferred to this specific wireless signal transceiving unit, to carry out follow-up work for the treatment of.

Described application bluetooth locates the robot monitoring system automatically gone on patrol, still comprise an anomaly unit, wherein store abnormal image data, and the image input that this camera head detects can be received, again by this image and abnormal image data comparison, whether abnormal to determine the control point corresponding to this absorption image, if abnormal, then send abnormal signal.

Described application bluetooth locates the robot monitoring system automatically gone on patrol, and wherein anomaly unit is arranged in this central controller or this image processor.

Described application bluetooth locates the robot monitoring system automatically gone on patrol, and still comprises a human face recognition unit and can be used for identification face, and this human face recognition unit receives the image from this camera head; This human face recognition unit comprises a face holder, wherein stores specific face and relevant data, and is set as warning personage for some specific face.

Described application bluetooth locates the robot monitoring system automatically gone on patrol, wherein this human face recognition unit with the number that simultaneously can record a certain control point with provide with supervisor as a reference.

Described application bluetooth locates the robot monitoring system automatically gone on patrol, and wherein this human face recognition unit is arranged in this central controller or this image processor.

Described application bluetooth locates the robot monitoring system automatically gone on patrol, and still comprises a whereabouts record cell, can to its movement track of this robot records and position, and therefore observable goes out the track record of this robot.

Described application bluetooth locates the robot monitoring system automatically gone on patrol, still comprise a display interface unit, inside be built in the data receiving this track record unit in this central controller, background based on this bluetooth map, show position and the movement track thereof of this controlled electronic device, this display interface unit can receive the data of this specific wireless signal transceiving unit simultaneously, and wherein this display interface unit still connects a display, for showing all relevant messages of this case.

Described application bluetooth locates the robot monitoring system automatically gone on patrol, and wherein this specific wireless signal transceiving unit is be suitable for WiFi, GSM, GPRS communications protocol person.

Described application bluetooth locates the robot monitoring system automatically gone on patrol, and wherein user can utilize handheld electronic communication equipment through this specific wireless signal transceiving unit and this central controller, manipulates advance action and the shooting action of this robot.

The invention has the advantages that, application bluetooth navigation system sets up patrol path in advance, user is provided to preset control point, therefore user only needs instruction robot automatically to go on patrol, this robot can carry out the operation of going on patrol to each control point according to the image path preset, and be sent on the watch-dog of far-end by shot with video-corder image.Also fixed cycle operator can be set, and the patrol action making this robot fix at a fixed time.Effectively to replace the patrol of original personnel.Moreover run into when having unusual condition or personnel, effective identification also can be provided to give the supervisor of far-end, reach the object that warning and information provide.Therefore robot effectively can replace traditional patrol operation.Moreover also a large amount of monitors must be set on fixing point unlike in known techniques, in this case, monitoring point can optionally be selected, and can by the angle of the action adjustment supervision of incidence and height.

Accompanying drawing explanation

Fig. 1 shows the element block schematic diagram of the present invention.

Fig. 2 shows the schematic diagram of robot of the present invention and this central controller link.

Fig. 3 shows the robot patrol path schematic diagram of the present invention.

The robot patrol path that Fig. 4 shows the present invention is provided with control point.

The control point that Fig. 5 shows on the robot patrol path of the present invention can be a line segment or a region.

Fig. 6 shows the structure chart of robot of the present invention.

  

Embodiment

Hereby careful just structure composition of the present invention, and the effect that can produce and advantage, coordinate graphic, lift one of this case preferred embodiment and be described in detail as follows,

Please refer to shown in Fig. 1 to Fig. 6, the application bluetooth of display the present invention locates the robot monitoring system automatically gone on patrol.

This system comprises following elements:

One central controller 10, mainly comprises processor, memory body and relevant electronics information device, for integrating systems all in this case.This central controller 10 comprises a bluetooth Transmit-Receive Unit and a specific wireless signal transceiving unit, and this bluetooth Transmit-Receive Unit is for receiving and dispatching bluetooth signal; This specific wireless signal transceiving unit is for receiving and dispatching particular communication signal, and it is the person that is suitable for receiving image transmission in time.

Multiple default Bluetooth transceiving 20, the corner that configuration is separated in space separately, the covering scope of signal all gives suitable separation each other, the bluetooth signal from multiple controlled electronic device (such as robot) can be received and dispatched, this Bluetooth transceiving 20 is as bluetooth 4.0 transceiver, and generally the covering scope of its signal is about 100 meters.

Locating unit 13 is built in this central controller 10 in being, bluetooth Transmit-Receive Unit 11 via this central controller 10 receives the bluetooth signal of each Bluetooth transceiving 20, and the bluetooth coordinate in bluetooth signal source is set up out according to the strong and weak size of bluetooth signal, this bluetooth signal system sent by the controlled electronic device (the signal transmitting and receiving machine of such as robot) at scene, wherein this positioning unit 13 comprises a comparative device 131, include comparison logic, can by the plurality of Bluetooth transceiving 20 receive bluetooth signal and carry out intersection comparison calculation according to intensity size, to summarize the bluetooth coordinate position of this bluetooth signal.

One bluetooth map unit 12 is built in this central controller 10 in being, for setting up bluetooth map, system utilizes the bluetooth coordinate of this positioning unit 13, based on the signal covering scope of the plurality of Bluetooth transceiving 20, set up out the on-the-spot bluetooth coordinate of controlled electronic device (such as robot) and the corresponding relation of actual geographic position, and this bluetooth coordinate is recorded on this bluetooth map, therefore can learn this actual geographic location point representated by bluetooth coordinate.

This bluetooth map unit 12 comprises:

One whereabouts record cell 121, can to its movement track of controlled electronic device record detected and position, and therefore observable goes out the track record of this controlled electronic device, to reach the object of optimization management.

One robot 1, wherein this robot 1 comprises following elements:

One robot fuselage 2, comprises main part 100, and the incidence 200 of extending above this main part 100, and actuating unit 300.Wherein this incidence 200 comprises head 220 and a neck 210.This neck 210 is upwards extend from this main part 100 in scalable mode, and 220, this head is connected to this neck 210 in rotatable mode.

This actuating unit 300 is generally installed on the below of this main part 100.This actuating unit 300 general comprises transmission mechanism and wheel body 310.This robot fuselage 2 still comprises a power source 400 and gives the relevant all elements of this creation for providing power.

One camera head 30 its to comprise camera lens 35 be arranged on this incidence 200, it comprises set of lenses and can make a video recording to context.

One image processor 600 (please refer to Fig. 3), system receives the image of shooting with video-corder from this camera head 30, line number of going forward side by side position image processing, the video conversion of original analogy is become digital image, and be stored in a memory body 660, this memory body 660 is built in being in this image processor 600, and wherein the image data system of this image processor transmits via this specific wireless signal transceiving unit.

One robot signal transmitting and receiving machine 60 is another position being arranged on this robot fuselage 2, connect this image processor 600, wherein this robot signal transmitting and receiving machine 60 comprise bluetooth signal transmission-receiving function with the wireless signal transmission-receiving function being suitable for this specific wireless signal transceiving unit, after the plurality of Bluetooth transceiving 20 receives the bluetooth signal of this robot signal transmitting and receiving machine 60, the positioning unit 13 of this central controller 10 can be utilized to locate the position of this robot 1.This robot signal transmitting and receiving machine can send wireless signal to this specific wireless signal transceiving unit simultaneously, to be gone out by the data transmission of this image processor; Such as be sent to mobile phone, therefore user can watch on mobile phone this robot 1 the image data of shooting with video-corder.

One path setting unit 122, the bluetooth map unit 12 in this central controller 10 is built in system, this path setting unit 122 can allow the course of user planning robot 1 in the reconnaissance range of the plurality of default Bluetooth transceiving 20, this course system uses this bluetooth coordinate to define route, wherein user still can set multiple control point in this course, automatically can send out bluetooth signal when robot 1 arrives this control point to this central controller 10, allow system learn the current position of robot 1.This course is necessary for robot 1 route that can pass through that nothing serious.User also can set the time of monitoring.

One points to unit 123, is built in the bluetooth map unit 12 in this central controller 10 or downloads to robot 1 by central controller inner in being.This sensing unit 123 can link with actuating unit 300 signal of this robot 1, advances to order this robot 1 and controls the direct of travel of this robot 1.

The direction vector data in the course of this path setting unit 122 is included in this sensing unit 123.This sensing unit can march to down any direction according to the bluetooth coordinate calculating robot 1 of this robot 1, then the direct of travel of this robot 1 can be adjusted to calculated direction by this sensing unit 123.In whole process, constantly revise and the direct of travel controlling this robot 1, to confirm that this robot 1 does not depart from the course of specifying.

Preferably, this sensing unit 123 is the direct of travel utilizing the method for image identification to control this robot 1, the graphic materials storehouse of all control points in the course that this sensing unit 123 includes this path setting unit 122, wherein this sensing unit is made a video recording by the camera head 30 of meeting this robot 1 of instruction during the plurality of control point in robot 1, and after this shooting record material and this graphic materials storehouse are carried out image compare of analysis, automatic generation revision directive, continuous correction and the direct of travel controlling this robot 1, to confirm that this robot 1 does not depart from the course of specifying, wherein this shooting record material utilizes this robot signal transmitting and receiving machine 60 to be transferred to this specific wireless signal transceiving unit 15, to carry out follow-up work for the treatment of.

Preferably, user can utilize handheld electronic communication equipment (as mobile phone, flat board) through this specific wireless signal transceiving unit and this central controller, manipulates advance action and the shooting action of this robot 1.

This case still comprises a display interface unit 14, inside be built in this central controller 10, receive the data of this track record unit 121, background based on this bluetooth map, show position and the movement track thereof of this controlled electronic device, this display interface unit 14 can receive the data of this specific wireless signal transceiving unit 15 simultaneously.This display interface unit 14 still can connect a display 60, for showing all relevant messages of this case.Therefore user can watch on this display 60 this robot 1 the image data of shooting with video-corder as shown in Figure 4, hereby lift an illustrative examples, be described as follows, one operating personnel's (not shown) according to the multiple control point of image path setting (A, B, C, D, E as in Fig. 4) of set up monitoring environment, and can set the tour time.When the operator scheme of robot is set as automatic monitoring, namely this robot 1 moves to the arbitrary control point (the A point as in Fig. 5) in set up automatic monitoring viewpoint, and carry out set supervisory control action at this point, mainly shoot with video-corder the action of the settings such as image at this point, and taken in image is distally transmitted.Apply this mode all control points were all maked an inspection tour and takes in relevant image and relevant detecting information.

Wherein above-mentioned control point also can be a line segment or a region (with reference to figure 5), and guides this robot 1 in this line segment or a region, to be sequentially moved to these points to carry out supervision operation.

This image processor 600 still comprises an anomaly unit 630, wherein store abnormal image data, and the image input that this camera head 30 detects can be received, again by this image and abnormal image data comparison, whether abnormal to determine the control point corresponding to this absorption image, if abnormal, then send abnormal signal.

This image processor 600 still comprises an alarm unit 650 and connects this anomaly unit 630, for receiving the abnormal signal from this anomaly unit 630, and sends the supervisor that far-end is given in alarm signal.

This robot 1 detect a certain control point place have a window under normal circumstances this window be situation about closing.The image that this window closes is stored in this anomaly unit 630.When detecting this control point, the image taken in by this robot 1 is sent to this anomaly unit 630 and carries out image comparison.When the result of comparison shows this window not in situation about closing (as window does not align with window lattice), then this anomaly unit 630 transmits an abnormal signal and gives this alarm unit 650, is given the alarm give monitor staff by this alarm unit 650.

This image processor 600 still comprises a human face recognition unit 640 and can be used for identification face.This human face recognition unit 640 receives the image from this camera head 30.This human face recognition unit 640 comprises a face holder 645, wherein stores specific face and relevant data, and is set as warning personage for some specific face.The image that this human face recognition unit 640 is taken in for camera head 30, first detect the existence of face, after subsequently detected face being fixed, intercept the image of this face, and the Given Face comparison stored in this image and this face holder 645, if specific face, then carry out the process of being correlated with according to this relevant data.As a face being compared out shows the face that this face is the special warning of needs, then by this alarm unit 650, this human face recognition unit 640 notifies that this supervisor must pay special attention to.Or the face being compared out shows this face and unspecific face, be then likely not received external effractor, then by this alarm unit 650, this human face recognition unit 640 notifies that this supervisor takes necessary operation.

This human face recognition unit 640 with the number that simultaneously can record a certain control point with provide with supervisor as a reference.

Each unit in this case in image processor 600 such as human face recognition unit 640, alarm unit 650, anomaly unit 630 etc. also can be arranged in the central controller 10 in high in the clouds.And track record unit 121 in central controller 10, path setting unit 122, point to unit 123 and also can be arranged in the image processor 600 of robot fuselage.

Above-listed detailed description system illustrating for one of the present invention possible embodiments, only this embodiment be not used to the scope of the claims limiting this creation, all do not depart from skill of the present invention spirit institute for it equivalence implement or change, all should be contained in the scope of the claims of the present invention.

  

Claims (12)

1. apply bluetooth and locate the robot monitoring system automatically gone on patrol, it is characterized in that, comprise:

One central controller, comprise a bluetooth Transmit-Receive Unit and a specific wireless signal transceiving unit, this bluetooth Transmit-Receive Unit is for receiving and dispatching bluetooth signal; This specific wireless signal transceiving unit is for receiving and dispatching particular communication signal, and it is the person that is suitable for receiving image transmission in time;

Multiple default Bluetooth transceiving, the corner that configuration is separated in space separately, the covering scope of signal all gives suitable separation each other, can receive and dispatch the bluetooth signal from multiple controlled electronic device;

Locating unit, be built in this central controller in system, bluetooth Transmit-Receive Unit via this central controller receives the bluetooth signal of each Bluetooth transceiving, and the bluetooth coordinate in bluetooth signal source is set up out according to the strong and weak size of bluetooth signal, this bluetooth signal system sent by the controlled electronic device at scene, wherein this positioning unit comprises a comparative device, include comparison logic, the plurality of Bluetooth transceiving can be received bluetooth signal and carry out intersection comparison calculation according to intensity size, to summarize the bluetooth coordinate position of this bluetooth signal;

One bluetooth map unit, be built in this central controller in system, for setting up bluetooth map, system utilizes the bluetooth coordinate of this positioning unit, based on the signal covering scope of the plurality of Bluetooth transceiving, set up out the on-the-spot bluetooth coordinate of controlled electronic device and the corresponding relation of actual geographic position, and this bluetooth coordinate is recorded on this bluetooth map, therefore can learn this actual geographic location point representated by bluetooth coordinate; This bluetooth map unit comprises, a whereabouts record cell, can to its movement track of controlled electronic device record detected and position, and therefore observable goes out the track record of this controlled electronic device, to reach the object of optimization management;

One robot, wherein this robot comprises following elements:

One robot fuselage, comprises main part, and the incidence of extending above this main part, and actuating unit;

One camera head, it comprises camera lens system and is arranged on this incidence, can make a video recording to context;

One image processor, system receives the image of shooting with video-corder from this camera head, line number of going forward side by side position image processing, and is stored in a memory body, be built in this image processor in this memory system, wherein the image data system of this image processor transmits via this specific wireless signal transceiving unit;

One robot signal transmitting and receiving machine, system is arranged on another position of this robot fuselage, connect this image processor, wherein this robot signal transmitting and receiving machine comprises bluetooth signal transmission-receiving function and the wireless signal transmission-receiving function being suitable for this specific wireless signal transceiving unit, after the plurality of Bluetooth transceiving receives the bluetooth signal of this robot signal transmitting and receiving machine, the positioning unit of this central controller can be utilized to locate the position of this robot; This robot signal transmitting and receiving machine can send wireless signal to this specific wireless signal transceiving unit simultaneously, to be gone out by the data transmission of this image processor;

One path setting unit, the bluetooth map unit in this central controller is built in system, this path setting unit can allow the course of user planning robot in the reconnaissance range of the plurality of default Bluetooth transceiving, this course system uses this bluetooth coordinate to define route, wherein user still can set multiple control point in this course, automatically can send out bluetooth signal when robot arrives this control point to this central controller, allow system learn the current position of robot.

2. the application bluetooth as claim the 1 locates the robot monitoring system automatically gone on patrol, and it is characterized in that, still comprises a sensing unit, is built in this central controller or in being in robot fuselage; The actuating unit signal of this sensing unit and this robot links, and advances and control the direct of travel of this robot to order this robot;

The direction vector data in the course of this path setting unit is included in this sensing unit; This sensing unit can march to down any direction according to the bluetooth coordinate calculating robot of this robot, then the direct of travel of this robot can be adjusted to calculated direction by this sensing unit; In whole process, constantly revise and the direct of travel controlling this robot, to confirm that this robot does not depart from the course of specifying.

3. the application bluetooth as claim the 2 locates the robot monitoring system automatically gone on patrol, it is characterized in that, wherein this sensing unary system utilizes the method for image identification to control the direct of travel of this robot, the graphic materials storehouse of all control points in the course that this sensing unit includes this path setting unit, the wherein camera head shooting of this sensing unit in robot by meeting this robot of instruction during the plurality of control point, and after this shooting record material and this graphic materials storehouse are carried out image compare of analysis, automatic generation revision directive, continuous correction and the direct of travel controlling this robot, to confirm that this robot does not depart from the course of specifying, wherein this shooting record material utilizes this robot signal transmitting and receiving machine to be transferred to this specific wireless signal transceiving unit, to carry out follow-up work for the treatment of.

4. the application bluetooth as claim the 1 locates the robot monitoring system automatically gone on patrol, it is characterized in that, still comprise an anomaly unit, wherein store abnormal image data, and the image input that this camera head detects can be received, then by this image and abnormal image data comparison, to determine control point corresponding to this absorption image whether exception, if abnormal, then send abnormal signal.

5. the application bluetooth as claim the 4 locates the robot monitoring system automatically gone on patrol, and it is characterized in that, wherein anomaly unit is arranged in this central controller or this image processor.

6. the application bluetooth as claim the 1 locates the robot monitoring system automatically gone on patrol, and it is characterized in that, still comprises a human face recognition unit and can be used for identification face, and this human face recognition unit receives the image from this camera head; This human face recognition unit comprises a face holder, wherein stores specific face and relevant data, and is set as warning personage for some specific face.

7. the application bluetooth as claim the 6 locates the robot monitoring system automatically gone on patrol, and it is characterized in that, wherein this human face recognition unit with the number that simultaneously can record a certain control point with provide with supervisor as a reference.

8. the application bluetooth as claim the 7 locates the robot monitoring system automatically gone on patrol, and it is characterized in that, wherein this human face recognition unit is arranged in this central controller or this image processor.

9. the application bluetooth as claim the 1 locates the robot monitoring system automatically gone on patrol, and it is characterized in that, still comprises a whereabouts record cell, can to its movement track of this robot records and position, and therefore observable goes out the track record of this robot.

10. the application bluetooth as claim the 9 locates the robot monitoring system automatically gone on patrol, it is characterized in that, still comprise a display interface unit, inside be built in the data receiving this track record unit in this central controller, background based on this bluetooth map, show position and the movement track thereof of this controlled electronic device, this display interface unit can receive the data of this specific wireless signal transceiving unit simultaneously, wherein this display interface unit still connects a display, for showing all relevant messages of this case.

11. application bluetooths as claim the 1 locate the robot monitoring system automatically gone on patrol, and it is characterized in that, wherein this specific wireless signal transceiving unit is be suitable for WiFi, GSM, GPRS communications protocol person.

12. application bluetooths as claim the 1 locate the robot monitoring system automatically gone on patrol, it is characterized in that, wherein user can utilize handheld electronic communication equipment through this specific wireless signal transceiving unit and this central controller, manipulates advance action and the shooting action of this robot.