NO314376B1 - Access control system - Google Patents

Description

SYSTEM FOR IMAGE CONTROLLED ACCESS CONTROL

Technical area

The invention generally relates to communication systems, and more specifically a communication system for access control of a door or a gate leading into a restricted area.

Background for the invention

In many contexts there is a need to communicate with a person who wants to enter through a door or a gate leading into a restricted area, as this person does not have a key, access card etc. There are a number of previously known solutions as an approach to this problem. Well-known are intercom solutions where from an access terminal outside the front door you call either a security guard or a resident of the housing unit and talk to them through a speaker/microphone, and where the officer/resident speaks on a dedicated phone and can remotely control the opening of the door using a control button. Such solutions are usually aimed at residents in blocks of flats and other housing units where many residents use the same entrance. Independent housing units, such as detached houses, have less need for an ordinary intercom solution, as the resident can usually hear when the doorbell rings and see the person through the windows of the house before the door is opened. Regardless of the housing type, however, there is a need for solutions that make it possible to achieve communication with the resident from one

door phone/access terminal, also when the resident is out of the house.

The position of the technique

From US 6,049,598 a technique is known in which a video camera is connected to a 1SDN fixed line for the transmission of an image from an access terminal. In this solution, an ISDN video phone is used in the home, and images can be transferred directly to this using a control box that is installed. The system is also connected to the ISDN network and, if desired, can transfer images via ISDN to a remotely connected user.

Disadvantages of this solution are that it requires physical connections during installation, and that it makes special demands on the terminal equipment the resident uses, in particular that it does not enable dynamic adaptation of the form and content of the communication to the type of terminal the resident uses.

EP 0 789 493 Al describes a solution for intercoms with a video camera. Short-range TV transmitters are installed here, so that you can make use of the normal TV sets in the apartments to establish a video image of the person who wants to enter the apartment. Disadvantages of this technique are that it only conveys information to a resident who is present in the home, and that a TV set must be switched on and tuned to a specific channel for image communication to be achieved.

DE 4 127 316 describes a wireless intercom solution where an access terminal at the front door is wirelessly connected to a dedicated base station inside the house which creates a wireless communication channel to a DECT wireless house phone. Residents can thereby combine a door phone with a cordless phone. Disadvantages of this technique are that only voice information is transmitted, not image information; that a special house switchboard must be installed; that the resident must be present or in the immediate vicinity for communication to be achieved; and that the resident must use a special terminal of the DECT type.

US 6 072 861 shows an intercom solution which, if the resident does not answer calls within a given period of time, starts recording sound and images which are converted into digital data and sent to the residents via e-mail for later playback. Disadvantages of this technique are that it requires connection to an existing door phone system; and that it does not enable image communication to a remote location in near real time.

Summary of the Invention

It is an aim of the present invention to provide a communication system for access control of a door or a gate leading into a restricted area, in particular a door leading into a private residence, and which is not affected by the above disadvantages.

Another purpose of the invention is to provide a system as mentioned above, which enables image communication with a mobile terminal operating in a mobile communication network.

A further purpose of the invention is to provide such a system which requires no or minimal electrical installation or wiring.

A further purpose of the invention is to provide such a system which makes use of existing infrastructure and services in already established communication networks.

Another purpose of the invention is to provide such a system which either consists of a single independent unit, or of two units that communicate wirelessly with each other.

Further objects of the invention are to provide a system of the above kind which is reasonable in acquisition and production, and which is also practical, simple,

user-friendly, reliable and reliable in use.

The above purposes and other advantages are achieved by means of the features that appear in the subsequent patent claims.

The invention relates to a communication system for access control of a door or a gate leading into a restricted area, in particular a door leading into a private residence.

The system includes an access terminal for placement outside the door. The system comprises a first control device, connected to

- an electronic camera to provide a first image information,

- a display device for displaying a second image information,

- a manual operating means for providing an activation signal, and

- a communication device for providing two-way image communication between the first control device and a network for mobile communication. The first image information is received from the network, and the second image information is sent to the network. The communication system is designed to, depending on the activation signal, establish a connection between the access terminal and a predetermined mobile terminal operating in the network.

In a first embodiment, the communication device is a

mobile communication module contained in the access terminal. Furthermore, the first control device is arranged to establish the connection between the access terminal and the mobile terminal in dependence on the activation signal. Thereby, the system constitutes a single, independent unit that can be mounted outside the door without the need for wiring/installation.

In a second embodiment, the communication device of a first local communication module is contained in the access terminal. Furthermore, this embodiment of the system comprises a separate control terminal, arranged for local communication with the first local communication module and for mobile communication with the network. Thereby, the system consists of two independent units, where the access terminal can be mounted outside the door without the need for wiring/installation, and where the control terminal can be placed inside the home.

Further purposes and advantages of the invention will be apparent from the following description with drawings.

Brief description of the drawings

In the following, the invention will be described in more detail in the form of preferred embodiments with reference to the drawings, where

fig. 1 illustrates an access terminal, seen from the front,

fig. 2 is a principle block diagram illustrating a first embodiment of a communication system for access control,

Fig. 3 is a principle block diagram illustrating a second embodiment of a communication system for access control,

fig. 4 is a simplified state diagram for the access terminal shown in fig. 2 or the access terminal shown in fig. 3,

fig. 5 is a simplified state diagram for the control terminal shown in fig. 3, and fig. 6 is an illustration of a website for operating and setting up the system.

Detailed description of preferred embodiments

Fig. 1 illustrates an access terminal according to the invention, seen from the front.

The access terminal 1 is assembled in a compact unit which, in a typical application, is designed to be attached to an external wall of a home, adjacent to a door leading into the home. From the front, a display 2, an operating device 3, a camera 4 and a preferably infrared light source 25 can be seen. The camera 4 is designed to take still images or video images of a person who is in front of the access terminal 1.

Fig. 2 is a principle block diagram illustrating a first embodiment of a communication system for access control according to the invention, and the environment that interacts with the system.

In this embodiment, the system consists of an access terminal 1 for placement outside the door leading into a restricted area. The access terminal 1 is designed to communicate with a network 16 for mobile communication, which further has a communication connection with a further network 19, such as the Internet.

Figure 2 also shows mobile terminals 17, 18 which communicate with the system using the mobile phone network 16. The mobile terminal 17 is an ordinary mobile phone for voice and text communication, while the mobile terminal 18 is a mobile phone which is also arranged to display image information on a display 23. The mobile terminal 18 can alternatively be a PC or a PDA (Personal Digital Assistant) equipped for mobile communication. Figure 2 also shows a computer 22 and a central storage device 20 which is connected to the Internet, and which communicates with the system using the Internet 19 and the mobile phone network 16.

The access terminal 1 comprises a control device in the form of a microcontroller 6. The access terminal 1 further comprises a display 2, a manual operating device 3, a video camera 4 and a mobile communication device 7. These components 2, 3, 4, 7 are all connected to the microcontroller 6.

Preferably, the access terminal 1 additionally comprises a speaker 5, a microphone 26, a door position detector 21 to detect whether a door is open or closed, and a light source 25, arranged to illuminate an object located in an imaging area in front of the camera 4. Also these components 5, 21, 25, 26 are connected to the microcontroller 6.

The display 2 is designed to display information in the form of text and/or image, controlled and supplied from the microcontroller 6. The display must be suitable for battery operation, and draw little current. A dot matrix LCD display is therefore suitable. The display can be equipped with lighting, for example with white LEDs, which provides the greatest possible light effect with the least possible power consumption.

The manual operating device 3 typically consists of an electrical switch, such as a push button switch. The operating device 3 emits a signal that can be read by the microcontroller 6.

The video camera 4 is arranged to provide first image data to the microcontroller 6. It can, for example, be a CMOS video detector, made with a lens that projects the subject onto a CMOS chip. Choosing a CMOS video detector is crucial for a low current draw and low drive voltage. An example of such a CMOS video detector is the PB-0101 from Photobit. Any control functions for the camera 4 such as exposure time, image format and image transmission speed can also be controlled with output signals from the microcontroller 6.

The mobile communication device 7 is a transceiver circuit for mobile communication, designed to provide two-way communication in a network 16 for mobile communication, typically a global wireless network such as a GSM, GPRS or UMTS network. For GSM, the transceiver consists of a GSM Voiceband/baseband codec mixed-signal chip such as Analog Devices' AD6521 in combination with a GSM/GPRS controller such as Analog Devices' AD6522. The radio transceiver can be implemented using Analog Devices' Othello™ chip-set and an integrated GSM dual-band antenna.

The mobile network 16 is further connected to a further computer network 19 such as the Internet. This enables communication between the microcontroller 6 and an external computer 22 connected to the Internet 19, so that data regarding control parameters, configuration and program changes can be downloaded from the computer 22 to the microcontroller 6, and correspondingly that data can be retrieved from the microcontroller

6 to the computer 22.

The loudspeaker 5 is arranged to reproduce acoustically an analogue signal generated by the microcontroller 6. The signal is optionally amplified or processed in another way by intermediate circuits.

The door position detector 21 is designed to generate a door position signal that expresses whether a door is open or closed, and to transmit this signal to the microcontroller 6. The detector is preferably an infrared or ultrasonic distance detector that senses the door's position by means of reflection. The door position signal can be generated internally in processing circuits in the detector, or in software in the microcontroller 6 on the basis of the emitted and reflected signal.

Alternatively, the detector 21 consists of a microphone which picks up vibrations in the air and/or door frame, caused by the movement of the door, in cooperation with a processing unit which is preferably implemented as software in the microcontroller 6, and which, on the basis of the vibrations, determines whether the door is opened. By comparing sound impulses picked up by a microphone, a frequency response analysis through a Fast Fourier Transform and a pattern comparison with a pre-recorded pattern can determine whether the door is opened. The comparison of patterns can either be solved analytically or with the help of a neural network. Resources for doing frequency analysis and filter bank parameter decomposition are incorporated into the functions included in the speech coder and are a reuse of existing resources available in the system.

The light source 25 is designed to illuminate an object located in front of the camera 4, preferably with infrared light. The light source preferably comprises one or more infrared LEDs. The light source is controlled using a control signal emitted by the microcontroller 6. Infrared lighting enables the camera 4 to acceptably image a person at a specified distance in front of the camera 4, even if the surroundings are dark, and without the lighting being visible to the eye.

The microcontroller 6 comprises a processor, a program memory (ROM/flash) for storing program code and fixed data, data memory (RAM/flash) for storing volatile or temporary data, as well as input circuits which are connected to the aforementioned elements 2, 3, 4, 5, 21, 25, 26 which are covered by the access terminal.

The microcontroller 6 is preferably a standard electronic component, such as a micro RISC processor from Atmel AT90LS8515 which is suitable for operation on battery voltages of 3.3V and has other characteristics such as low current draw in active and standby mode. Program code contained in the program memory, and thereby the operation of the microcontroller, will be the distinctive feature of the invention. This will be explained

in more detail with reference to fig. 4.

The various elements in the access terminal 1 are supplied with electrical operating power from a suitable DC voltage supplied by a power supply which in the simplest embodiment comprises an ordinary power converter 29 which is supplied from the mains. To simplify installation and reduce the use of cables, the power supply advantageously comprises a rechargeable battery 27, a solar panel 28 and a charging circuit 29.

Fig. 3 is a principle block diagram illustrating a second embodiment of a communication system for access control according to the invention, and the environment that cooperates with the system.

In this embodiment, the system comprises an access terminal 1 for placement outside the door leading into a restricted area, and a control terminal 10 for placement inside the area. The two terminals 1, 10 are communicatively connected by means of a local, wireless, two-way communication connection 9. The control terminal 10 communicates with a network for mobile communication 16, which is connected to a further network 19 such as the Internet.

The embodiment in fig. 3 can be considered a variant of the embodiment shown in fig. 2, where the mobile communication device 7 is replaced by the combination of the local communication device 8 and the control terminal 10, which together ensure the communication with the mobile network 16.1 In addition, the control terminal 10 performs additional functions.

The reference numbers in Figure 2 correspond to the corresponding elements explained in the description of Figure 1. In the following, only those elements which do not have their direct counterpart in the above description shall be described in more detail.

Instead of the mobile communication device 7, shown dashed in fig. 2, the access terminal 1 comprises a local communication device 8, which consists of an RF transceiver circuit for local communication.

The transceiver circuit 8 is designed to wirelessly send data supplied by the microcontroller 6 to a corresponding transceiver circuit 11 in a control terminal 10 located in the transceiver circuit 8's coverage area. It is further arranged to wirelessly receive data sent from a corresponding, external transceiver circuit 11 in the control terminal 10, and to deliver this data to the microcontroller 6.

The transceiver circuits 8, 11 must be able to transmit amounts of data depending on the capacity of the corresponding transceiver circuit that acts as a receiver. If you want to transfer video images, you must be able to transfer at least 30,000 bits/second. Conditional on cost, a natural choice would be a Bluetooth transceiver such as the ROK 101 007 from Ericsson. Bluetooth transceivers operate in the ISM band of 2.4-2.S GHz and can transmit up to 460,000 bits/second (Bluetooth release 1 .OB). Another option could be so-called WLAN transceivers that also transmit in the ISM band using the IEEE 803.11b standard.

The control terminal 10 is a separate unit for placement inside the restricted area, e.g. inside the house. It comprises a control device in the form of a microcontroller 14, which is connected to a local communication device 11 and to a mobile communication device 13.

Preferably, the control terminal 10 additionally comprises a speaker 12, a data storage 15 and a motion detector 37. The component 37 is also connected to the microcontroller 14.

The local communication device 11 is a transceiver circuit for local communication, designed to wirelessly send data supplied by the microcontroller 14 to a corresponding transceiver circuit 8 in an access terminal located in the coverage area of the transceiver 14, and to wirelessly receive data transmitted from the transceiver circuit 8 and to deliver this data to the microcontroller 14. It is preferably of the same type as the transceiver circuit 8 discussed above.

The mobile communication device 13 is a transceiver circuit for mobile communication, designed to provide two-way communication in the mobile phone network 16, such as a GSM, GPRS or UMTS network, corresponding to the mobile communication device 7 described in connection with the discussion of fig. 1.

The mobile network 16 is connected to a further computer network 19 such as the Internet. This enables communication between the microcontroller 14 and an external computer 22 connected to the Internet 19, so that data regarding control parameters, configuration and program changes can be downloaded from the computer 22 to the microcontroller 14, and correspondingly, data can be retrieved from the microcontroller 14 to the computer 22.

In addition, communication is enabled between the microcontroller 6 in the access terminal and the external computer 22, via the microcontroller 14 and the transceiver circuits 11, 8.

The loudspeaker 12 is arranged to emit an acoustic signal as a result of a control signal supplied by the microcontroller 14, optionally amplified or processed in another way by intermediate circuits.

The microcontroller 14 is arranged to generate a warning signal in the loudspeaker 12 as a result of an activation signal. It is also arranged to convey a speech signal which is picked up by the microphone 26 and transmitted via the local communication 9. The motion detector 37 is arranged to deliver to the microcontroller 14 a signal expressing the detection of movement in the area where the control terminal 10 is located, especially for the purpose to determine whether there are people in the area. It is preferably an ultrasonic motion detector that detects movements in the surroundings using ultrasound reflection.

The microcontroller 14 comprises essentially the same structural elements as the microcontroller 6 mentioned in the description of the access terminal 1. Program code contained in the microcontroller's program memory, and thereby the operation of the microcontroller 14, will, however, be the distinctive feature of the invention. This will be explained in more detail with reference to fig. 6.

Fig. 4 is a simplified state diagram for the access terminal 1 shown in fig. 2 or fig. 3. The illustrated states, indicated by circles, correspond to operational states of a program executed by the microcontroller 6. By the arrows leading from a

state to another or the same state, a transition condition is specified.

The access terminal 1 operates in a normal state 100 until an activation 102 occurs. This usually occurs by operating the push button S. The access terminal then goes to a determination state 110.

The transition 102 can alternatively be performed as a result of a detected movement in the camera's imaging area. In this case, the microcontroller 6 is provided with a program part which, in execution, processes the camera signal, detects changes in the captured image and generates an activation signal which overrides the signal from the push button 5.

The transition 102 can alternatively be carried out as a result of the mobile terminal 17; 18 makes an active call to the access terminal. In this case, the access terminal acts as a monitoring system or an advanced "babysitter".

In state 110, it is determined whether a connection is to be established from the access terminal 1 to a mobile terminal 17; 18 in the network 16. The identity for the mobile terminal is stored in a part of the memory in the control device 6.

In the simplest form of the access terminal 1, the state 110 is a zero state, and the condition is always considered fulfilled. Then operation of the button 5 will automatically cause the transition 114 to the state 120 to be carried out, i.e. that the connection is established.

Preferably, however, the signal from the door position detector 21 will influence the condition for the connection to be established. Typically, the transition 114 will be performed if this signal indicates within a given time that the door has not been opened. This ensures that connections are not created unnecessarily.

If the access terminal 1 is of the first embodiment illustrated in fig. 2, a two-way audio and video connection is established in state 120 between the mobile communication device 7 and a mobile terminal 17; 18 in the network 16.

If the access terminal 1 is of the second embodiment illustrated in fig. 3, in state 120 a start indicator signal is sent to the Iocal communication device 8, which forwards this to the control terminal 10.

When a connection has been established, respectively when the start indicator signal has been sent, the access terminal will continue to convey sound and/or image until transmission is stopped by no more sound or movement being detected in the image on the access terminal within a certain time, or that the connection is broken by the mobile terminal 17; 18. When the connection is broken, the access terminal returns to the normal state 100, transition 122.

Fig. 5 shows a simplified state diagram for the control terminal 10 shown in fig. 3.

The illustrated states, indicated by circles, correspond to different operating states for a program executed by the microcontroller 14. By the arrows leading from one state to another or to the same state, a transition condition is indicated.

The control terminal 10 operates in a normal state 200 until it receives a start indicator from the access terminal 1 via the transceiver 11. The start indicator is received as a result of the push button 5 having been operated and the door not being opened within a period of time, alternatively because the access terminal 1 has been activated using motion detection in the video camera's imaging area or by a mobile terminal making an active call to the control terminal 10 for monitoring purposes.

Upon reception 202 of the start indicator, the control terminal goes to state 210, where an audio signal is emitted if the start indicator is not due to a call from the mobile terminal, such as a ringing signal, in the speaker 12. The control terminal 12 works in this respect in the same way as an ordinary bell, where a acoustic signal for a period of time is emitted inside the house as a result of a call button being operated outside the door. In this state, speech from the access terminal will also be conveyed to the speaker 12 so that ringing and speech are combined.

After a given delay, the control terminal goes to state 220, where the mobile terminal 17; 18 is called. The identity of the mobile terminal is stored in a memory in the microcontroller 14. Several such identities may be stored, and the control device 14 may be arranged so that another identity is attempted if contact with a mobile terminal is not achieved.

If a call is successfully completed 222, the control terminal goes to state 230, where a connection is established between the access terminal 1 and the mobile terminal 17; 18 via local communication 9. The control terminal is set up so that any routing to mobile answering does not lead to further calls to other mobile terminals on the list. If this option is set, you will be able to leave a message on the resident's mobile answering machine in the usual way. The control terminal will then automatically end the call after a pre-set maximum time so that no one can leave disproportionately long messages. If it does not succeed in making any calls, the system will record an audio and video message and return to the starting point through transition 224. This video message can then be stored locally and an SMS message will be sent to a mobile terminal that it is left a message. The message can also be sent as an e-mail with an attachment to a pre-specified e-mail address, or it can be sent to a central server that provides an administration service where the resident can get an overview of the latest movements outside the door via the internet, as shown in figure 6.

Linked to the identities stored for the mobile terminals, there is also pre-stored attribute data that indicates whether the mobile terminal in question is a text and voice terminal, such as an ordinary mobile phone, or whether it also has the option of receiving and displaying image information and/or recording and sending image information.

Depending on these attributes, the control device 14 creates either a pure voice connection or a voice connection combined with either a one-way or two-way picture connection with the relevant mobile terminal 17; 18 in the network 16.

After the connection has been established, it can be terminated if, within a given period of time, no sound or movement is detected in the image from the access terminal or if the connection is broken by the mobile terminal breaking the connection. These states provide the transition 232 back to the normal state 200.

Fig 6 is an illustration of a website for the resident which is provided by a server 20 which is connected to the internet 19 and shows the appearance of a terminal which is connected to the internet. The terminal can be a fixed terminal 22 or a mobile terminal 17; 18 via WAP, or a mobile video terminal. After logging in with user and password 31, the personal page of the user 30 is displayed. A log 32 of the latest movements and events for the access terminals linked to the system shows whether there are normally activated sequences and their location as well as any events that have been triggered as alarm functions by movement has been detected by the video sensors. By selecting an event in the log, an audio/video recording 33 is played. All setup is done via a setup menu 34 where, among other things, you can set which mobile terminals are to be called, which access terminals are connected. Characteristics of each mobile terminal, indication of times for maximum length of message, time to be

run before the mobile terminal is called, etc.

In the above, the invention is described by means of an example, with certain alternatives discussed in addition.

In the example in fig. 3, the system is indicated to comprise an access terminal 1 and a control terminal 10 which communicate locally. It will be understood that a larger number of access terminals, such as 2, 3, 4 or more, can be used in a system together with one and the same control terminal 10. This is particularly relevant if several doors are to be monitored in connection with one and the same residence. In this case, ringtones and functionality may be different, depending on which access terminal 1 is operated. For a main entrance, e.g. a monitoring function is only activated if movement is detected at night, while any movement at any time can trigger an alert and picture taking at a back door.

The control devices 6, 14 are stated to be microcontrollers, but it should be understood that they can just as easily consist of functional units where the processor, memory and I/O units are connected, but are not necessarily integrated on one and the same circuit chip. It should also be understood that one or more of the units indicated are connected to a microcontroller, such as, for example, a local communication device, alternatively can be included together with the microcontroller as an integral part of one and the same chip.

In the examples, an access terminal 1 is indicated to contain one control device 3. It will be understood that several control devices 3 can be included in the same access terminal, if one wants such a terminal to be able to communicate with a larger number of control terminals, such as 2, 3, 4 or several. This is particularly relevant if a unit is to be placed by a common door that is used by several people or residents.

The detector 21 is preferably integrated into the access terminal 1. It is within the scope of the invention that the detector can be a traditional proximity detector, e.g. a magnetic switch, which is physically located outside terminal 1, but which is electrically connected to and thus logically included in terminal 1.

The detector 37 is also preferably integrated into the control terminal 10. It is within the scope of the invention that these can physically be outside the terminal 10, but still be electrically connected to and thereby logically encompassed by the terminal 10.

Although the example refers to access control of a home, it will be obvious that the invention can just as easily be used for access control of various types of buildings, such as offices and shops, or for access control of outdoor areas, e.g. courtyard, where the device is placed next to a gate, or likewise for access control of parts of buildings, such as a single room, e.g. a hotel room.

As an alternative application, the access terminal 1 can be used as a general, portable monitoring unit for use in the relevant area, e.g. as a "babysitter".

Those skilled in the art will realize that several possible embodiments and areas of application lie within the scope of the invention, as defined by the features set forth in the subsequent claims and by their equivalents.

Claims (10)

1. Communication system for access control of a door or a gate leading into a restricted area, in particular a door leading into a private residence, characterized in that the system comprises - an access terminal (1), comprising - a first control device (6) , associated with an electronic camera (4) to provide a first image information, a display device (6) for displaying a second image information, a manual operating means (3) for providing an activation signal, a communication device (7; 8,10) for providing two-way image communication between the first control device (6) and a network (16) for mobile communication, the first image information being received from the network (16) and the second image information being sent to the network (16) , and where the communication system is arranged to, depending on the activation signal, create a connection between the access terminal (1) and a predetermined mobile terminal (17; 18) operating in the network (16). 2. Communication system for access control in accordance with claim 1, - where the communication device consists of a mobile communication module (7) contained in the access terminal, and - where the first control device (6) is arranged to, depending on the activation signal, establish the connection between the access terminal (1) and the mobile terminal (17; 18) operating in the network (16). 3. Communication system for access control in accordance with requirement 1, where the communication device consists of a first local communication module (8) contained in the access terminal (1), and a separate control terminal (10) arranged for local communication (9) with the first local communication module (8) and for mobile communication with the network (16). 4. Communication system for access control in accordance with requirement 3, where the control terminal includes a second control device (14), connected to a second local communication module (11), arranged to provide local communication (9) with the first local communication module (8), a mobile communication module (13), arranged to provide mobile communication between the second control device (14) and the mobile terminal (17; 18), where the first control device (6) is arranged to convey the activation signal to the control terminal (10) via the local communication (9), and where the second control device (14) is arranged to establish the connection between the communication device (8,10) and the mobile terminal (17; 18), depending on the activation signal. 5. Communication system for access control in accordance with requirement 4, where the second control device (14) is further connected to a motion detector (37), arranged to detect movement in an area that includes or surrounds the control terminal (10), and where the second control device (14) is arranged to establish the connection between the communication device (7; 8,10) and the mobile phone terminal (17; 18) in dependence also on the motion detector signal. 6. Communication system for access control in accordance with one of claims 4-5, where the second control device (14) is - further connected to a speaker (12), and - is further arranged to generate an acoustic signal in the speaker (12) in dependence on the activation signal. 7. Communication system for access control in accordance with one of claims 1-6, - where the first control device (6) is further connected to a loudspeaker to reproduce a voice signal produced by the first control device (6), and a microphone (26) for to supply the control device with a voice signal, and - where the communication device (7;8,10) is further arranged to provide two-way voice communication between the access terminal (1) and the network (16). 8. Communication system for access control in accordance with one of claims 1-7, - where the first control device (6) is further connected to a light source, preferably an infrared light source, arranged to illuminate an object in the camera's imaging area, and - where the first the control device (6) is arranged to influence a control signal which is supplied to the light source. 9. Communication system for access control in accordance with one of claims 1-8, - where the first control device (6) is further connected to a door position detector (21), arranged to generate a door position signal which expresses whether a door or gate is open or closed , and - where the first control device (6) is arranged to establish the connection between the communication device (7; 8,10) and the mobile phone terminal (17; 18) also depending on the door position signal. 10. Communication system for access control in accordance with one of claims 1-9, where the first control device (6) is arranged - to detect movement in the imaging area of the camera (4) when processing the first image information, and - also in dependence on the camera detection signal to establish the connection between the communication device (7; 8,10) and the mobile phone terminal (17; 18)