CA2322710A1 - Electronic sensor for identifying objects to prevent them from being lost, stolen or moved - Google Patents

Abstract

The invention concerns an electronic sensor in particular for detecting theft or loss of objects comprising a central electronic unit (1) exchanging coded data by radio frequency with at least a transponder (11), associated with an object to be monitored to verify its presence in a located volume (12) and emitting an alarm (13) when said transponder (11) is no longer present in the monitored volume (12). The invention is characterised in that said transponder (11) is automatically set in stand-by mode outside the transponder active phases (11) and the central unit (1) selectively corresponds with said transponder.

Description

WO 46743 PCT / FB ~ 99% 00562 ELECTRONIC DETECTOR FOR IDENTIFYING OBJECTS
TO PREVENT LOSS, THEFT OR PLACEMENT.
The present invention relates to a detector electronics intended in particular for the detection of theft, loss, or displacement of objects.
Devices are currently known to monitor the presence of objects in an area defined such as that described in the document US5396218 which includes a Moorish card and at least one slave card or transponder intended to be housed in the object to monitor, suitable for exchanging information between them by radio frequencies, which master card which forms the central control system includes an alarm circuit which is activated when the slave card leaves the field of protection.
The document DE3618416 relates to a device electronic for monitoring baggage or other objects, including an electronic central unit exchanging coded information with units secondary or transponders likely to be placed in the objects to be monitored or attached to them, which central unit is programmable according to the number of secondary units, reception level, or other parameters, and sends call signals to secondary units which respond to the central unit which trigger, depending on the signals received, an alarm.
However, in these devices the circuits electronics of secondary units are permanently in activity, which poses consumption problems of energy and therefore of autonomy especially if we use secondary units or small transponders with signal emissions at high frequencies, greater than approximately 400 Mghz, which require a significant energy consumption to obtain a uniform coverage of transmissions / receptions in a volume of several meters of spherical or star type. Else apart these devices have an integrated power supply which cannot be recharged or replaced. Furthermore these devices require the user to activate and REPLACEMENT SHEET r ~ Eri F 2 ~~

2 to deactivate all transponders if he wishes to stop or reactivate the system for example when it is in his place of work or his home or other place does not requiring no protection, which is binding knowing that this intervention must be carried out several times a day.
On the other hand these devices do not provide when a supernumerary unit of the same coding is introduced in the protective field of the device for the purpose of malicious substitution of a protected secondary unit.
One of the problems to be solved is therefore the creation of an object detection device using small transponders capable to effectively cover a defined volume with exchanges between the transponders and the central unit in a high frequency band.
The object of the present invention is to remedy these disadvantages by proposing a detection device of objects by means of small transponders offering significant autonomy of use and allowing easy calibration and operation of the device and ensuring good safety of operation.
The electronic object detector according to the invention is of the type comprising a central unit electronic exchange of information coded by radiofrequency with at least one transponder, associated with a object to watch in we to check its presence in a defined volume and issuing an alarm when said transponder is no longer present in the volume of monitoring characterized in that the transponder is switched on automatically in standby state outside of phases active transponder and that the central unit selectively matches with said transponder.
An active phase corresponds to an active state of reception and processing of a signal sent by the unit central unit and, optionally, an active transmission state of a WO 99/46743

3 PGT / FR99 / 00562 message in response to said signal. The signal sent by the central unit can be a request signal for presence and the response signal sent by the transponder a coded message of confirmation of presence of the transponder in the volume to be monitored.
The relationship between the duration of an active phase and the operating cycle time will be very short and preferably less than 10%, so as to confer with transponders a great autonomy of energy.
The central unit consists of a circuit transmission / reception, an interface comprising a buffer memory allowing the radio frequency link of the central unit with several transponders, one microcontroller and memories containing the algorithms, in the form of computer programs, different detector operating modes.
The transponders include in a first embodiment a microcontroller and memories, a transmission / reception circuit and an interface comprising a buffer memory allowing the connection with several controllers.
Transponders include in a second embodiment a transmission / reception circuit and a smart memory suitable, when receiving a pulse sent by the central unit, to be sent via said transmission / reception circuit coded information contained in its memory to the central unit.
According to the invention the detector electronics includes:
- a calibration mode in which the unit central unit detects the transponders found in its monitoring volume and identifies them in its memory among the transponders referenced therein - a protection mode in which the unit central successively questions the transponders referenced and identified in its memory and issues an alarm if one of said transponders does not respond not, and WO 99/46743

4 PCT / FR99 / 00562 - a detection mode in which the unit central successively questions the referenced transponders and triggers an alarm as soon as one of said transponders responds, for example, until user intervention or until the central unit has detected all of said transponders.
The detector according to the present invention can further include an initialization mode intended for introduce new transponders and therefore modify the transponder referencing memory. This mode uses the time provided at the start of the interrogation frame transponders to initialize the new transponder and reference it in memory for identification and its monitoring, the other referenced transponders and identified being, in this mode, and at this time space Standby.
The detector according to the invention can also include a mode for erasing the memory of transponders that the user does not want to keep.
The central unit can include advantageously means such as indicator lights or an alpha-digital display screen allowing to inform the user of each operating mode of the detector, for example in the case of introduction a new transponder, confirming that it has has been referenced in the memory of the central unit, then identified to be monitored.
Still in accordance with the invention, transponders are capable of being integrated each into a object to monitor or are each in the form an electronic tag that can be joined to said object and each transponder is supplied with energy so autonomous or by the central unit.
The advantages and features of the present invention will emerge more clearly from the description which follows and which relates to the attached drawing, which represents several embodiments not limiting.

- Figure 1 is a representation schematic of the device according to the invention.
- Figure 2 shows the block diagram of the central unit and a transponder.

5 - Figure 3a shows the state of the registers of the memory of the central unit for a particular case of operation of the device according to the invention.
- Figure 3b shows the diagram time in protection mode of the device according to the invention.
- Figure 4a shows an algorithm of initialization mode - Figure 4b shows an algorithm of protection mode - Figure 4c shows an algorithm of detection mode - Figure 4d shows an algorithm of memory clearing mode - Figure 4e represents an algorithm of calibration mode.
If we refer to Figure 1 we can see an object detection device according to the invention comprises a central unit 1 exchanging information 10 with transponders each associated with an object, not shown, for the purpose of checking their presence in a defined volume 12.
The central unit 1 thus manages the presence verification communications transponders 11 in monitoring volume 12 and, in if one of them is absent, triggers an alarm sound 13.
We can see in Figure 2 that a, unit central unit 1 has a transmit / receive circuit 20, connected to an antenna 21, connected to an interface 20 ' allowing the connection with several transponders 11, and a microcontroller 22 connected on the one hand to the interface 20 and on the other hand to a read only memory 23 containing the computer program integrating the algorithms of WO 99/46743

6 PCT / FR99 / 00562 different operating modes (visible on Figures 4a to 4e) of the device, and to a random access memory 23 ' intended to contain parameters inherent in transponders 11, a buzzer 24 for issuing the alarm sound 13 and one or more LED 25 for the emission of a luminous alarm signal allowing to give to user information about how the device.
Each transponder 11 consists of a microcontroller 30 connected to transmission / reception circuit 31, connected to an antenna 32, and to memories 33, containing the characteristics of the transponder 11 and in particular coded information intended to be sent to the central unit at its request, and two 34.34 'time unit counters.
The transmitter of the transmission / reception circuits 20.31 includes, not shown, a data entry digital and a transmission circuit intended to transmit preferably digital information, in a range of frequency higher than about 400 Mghz, at distances of the order of several meters and in particular from 1 to approximately 120m. The receiver can use a structure superheterodyne type with two mixers allowing the retrieving information from the unit central either in analog form or in form digital. It can also be adapted to emit a carrier detection signal indicating reception will happen.
The detector according to the invention operates under 3o three main operating modes selectable at from the central unit l:
- a calibration mode in which the unit central successively questions according to a certain time base all the transponders 11 referenced in its memory 23, and memorizes to each transponder questioned and referenced information, for example in the form of an activity bit set to "1", as we can see on FIG. 3, signifying the presence of the transponder 11 WO 99/46743, PC'T / FR99 / 00562 in volume 12 to be monitored. We can also see on this figure that only the transponders TR1, TR2, TR4 and TR7 have their activity bit at "1". User will verify the smooth running and the result of the calibration thanks to LED 25. The selected transponders 11 will remain in memory until another mode is performed calibration, - a protection mode in which the unit control unit 1 questions successively, in the order of memorization of the transponders 11 referenced in its memory 23 and according to a certain time base, the transponders 11, where only among the transponders TR1, TR2, TR4, and TR7 referenced, as we can see on FIG. 3a, the transponders TR1, TR2, TR4 and TR7 which have an activity bit at "1" are queried, and triggers alarm 13 if one of the transponders whose bit activity is at "1" does not respond by sending a determined code, signifying its exit from the volume of monitoring 12, - a detection mode in which the unit central 1 questions on the same principle as described previously all the referenced transponders and triggers alarm 13 on each response from a transponder and eliminates it from the interrogation loop, until user intervention or when detection of all the referenced transponders has been performed, and two setting modes, one mode initialization and a memory erase mode.
The detection mode thus makes it possible to locate a lost object and avoid any risk of introducing a supernumerary transponder 11 for substitution purposes malicious or hacking of a referenced transponder and calibrated with the same coding.
If we refer to Figure 3b we can see a device operating cycle in mode protection where for the sake of simplicity and understanding time is split into seconds and 10 ~ "seconds.
When protection mode is engaged, the unit WO 99/46743 $ PCT / FR99 / 00562 control unit 11 sends an impulse at 40 which triggers simultaneously the time counters 34 of each TR1, TR2, TR4, TR7 transponders, then each time, after a fixed duration different from one transponder to the other, will put in active state, in 41, of reception of the presence request signal sent by central unit 1 transponder TR1, TR2, TR4 or TR7 correspondent who, if questioned during his time of alarm by the central unit, responds by sending a coded message 42 signifying its presence in the volume of surveillance. Then this transponder is then automatically put to sleep for a certain period of time 43 by means of the second time unit counter 34 '. In end of sleep period, transponders reactivate their counter 34 on receipt of a pulse 44 from the unit central unit 1, then wakes up at the end of the counting counter and, if they receive during their wake-up time a pulse 46 from the central unit 1 sends it back a coded message 42 significant of their presence. We can see in Figure 3b that after the simultaneous awakening of all TR1, TR2, TR4 and TR7 transponders by sending of a pulse 40 by the central unit 1 the transponder TR9 is awake last but is questioned first by central unit 1 and then transmits in response to this last an identification code 42 then this is the TR4 transponder which is requested by the central unit to justify his presence, then successively TR2 and TR1 transponder.
We can also see in Figure 3H the presence of initialization mode 47 at the start of the frame, su during which all the referenced transponders are state standby, intended to allow the introduction of new transponders in the memory 23 'of the central unit 1.
Transponders can be integrated into a object to be protected such as a smart card intended for banking applications respecting the constraints of surface and thickness, or can for example be present in the form of an electronic label WO 99/46743 9 PC'f / FR99 / 00562 independent, can be bonded, for example by bonding, to the object to be protected.
For greater security of the device, communications between the central unit and the transponders will be encrypted.
Note that an absence counter can be set up so that the central unit does not trigger its alarm only after n absences, thus avoiding alarms untimely.
The central unit can be integrated into a cell phone or other device and be in consequence powered by the latter's battery.

Claims (9)

10 1) Electronic detector intended in particular for detecting the theft or loss of objects of the type comprising an electronic central unit (1) exchanging radio frequency coded information with at least a transponder (11), associated with an object to be monitored in to verify its presence in a defined volume (12) and emitting an alarm (13) when said transponder (11) is no longer present in the monitoring volume (12) characterized in that said transponder (11) is set automatically in standby state out of phases active of said transponder (11) and in that the unit center (1) selectively corresponds with said transponder. 2) Detector according to claim 1 characterized in that it comprises:
- a calibration mode in which the unit control unit (1) detects transponders (TR1,TR2,TR4,TR7) which are in its monitoring volume (12) and identifies them in its memory among the transponders (11) which are referenced therein - a protection mode in which the unit control unit (1) successively questions in a loop the referenced and identified transponders (TR1, TR2, TR4, TR7) in its memory (23') and emits an alarm (13) if one of said transponders (11) does not respond, and - a detection mode in which the unit control unit (1) successively questions in a loop the transponders (11) referenced and triggers an alarm (13) as soon as one of said transponders responds. 3) Detector according to claim 2 characterized in that it further comprises a mode initialization intended to introduce new transponders, using the time forecast at the start of transponder interrogation frame (11) for initialize the new transponder and reference it in memory with a view to its identification and its surveillance, the other transponders (11) referenced and identified being, in this mode, and at this space time in standby. 4) Detector according to any one of preceding claims characterized in that it includes means (25) for informing the user to each operating mode of the detector. 5) Detector according to any one of preceding claims characterized in that the transponders (11) include a microcontroller (22) and memories (23,23') and a transmission/reception circuit (20). 6) Detector according to any one of claims 1 to 4 characterized in that the transponders (11) include a circuit transmission/reception (20) and an intelligent memory capable, upon receipt of a pulse sent by the central unit, to be sent via said circuit transmission/reception of coded information contained in its memory to the central unit (1). 7) Detector according to any of the preceding claims characterized in that the transponders (11) can each be integrated into an object to be monitored or each appear under the form of an electronic tag that can be secured to the audit object and in that each transponder (11) is powered in energy independently or by the central unit. 8) Detector according to any of the preceding claims characterized in that the communications between the central unit (1) and the transponders (11) are encrypted. 9) Detector according to any of the preceding claims characterized in that it includes an absence counter so that the unit control unit only triggers its alarm (13) after n absences.