FI112124B - Control method - Google Patents

Description

Control Method ^ 12124

The invention relates to a monitoring method according to the preamble of claim 1.

5 Such surveillance techniques shall be used to monitor and protect the premises under surveillance, in particular the interiors of buildings, against theft or vandalism.

In accordance with the prior art, surveillance systems include monitoring devices for monitoring the condition being monitored, and communication means for reporting the findings of the monitoring devices to the on-call center. The monitoring-10 devices may be infrared sensors, various types of radar, magnetic detectors, pressure sensors or other suitable sensors. The communication means, in turn, can be used even if the public telephone network is provided with suitable interfaces.

US 6,049,281 discloses an arrangement in which a monitoring device is a digital camera and communication is made over a wireless local area network (WLAN) 15.

Prior art control systems require that the state to be controlled,. several monitoring devices shall be installed.

It is an object of the present invention to provide a novel type of control method by which · · · '; : reduce the investment required for monitoring equipment and • • · · · 20 installation costs of the monitoring system.

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The invention is based on monitoring signal level measurements made by a wireless LAN and detecting a person moving in a monitored object based on a change in the measured signal levels.

More specifically, the monitoring method of the invention has; [25] characterized in what is set forth in the characterizing part of claim 1.

The invention may use, for example, the 802.11b standard as well as future • *, ·· * radio technologies used to connect computers to network services.

The system requires some kind of access point (AP) which transmits 2 112124 radio signals to receivers of workstations or similar devices and through which these receivers are connected to an external network. The signal level of the transmitted radio signal remains within a certain range, as long as no interfering factors appear in the field. According to our invention, one can proceed by measuring the signal level 5 in a normal situation and defining it as a reference level. Subsequent measured signal levels can then be compared to a reference level and, if the difference is greater than a defined threshold, it can be interpreted that a change has occurred in the physical environment of the monitored state. The change may be due, for example, to the movement of a person in a controlled state.

10 Currently, most WLAN technology is implemented in the 2.4 GHz band. In the future, we will move to 5 GHz range. Both of these frequency ranges are well suited for use with our invention.

The invention provides considerable advantages.

The monitoring method according to the invention does not require separate monitoring devices if the 15 monitored objects use a wireless LAN.

Other advantages can be achieved by the invention and its preferred embodiments. The control method underlying the invention operates independently of the technology used. ·.:. · * And is thus platform independent. The technology used also allows the service to be extended from one access point to a large number of access points: 20 access points. Each access point can also be used either as a separate *: unit or as part of a larger entity, allowing for e.g.

room-specific motion detection in the office environment.

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In addition, the invention provides the ability to produce · · | simple status information to a central point where further action is taken '; 25 based on alarms received.

♦ · •. ·: The invention will now be described by way of example and with reference to the accompanying drawings.

Figure 1 shows one wireless LAN according to the invention and measurement results * * * · *. , at the first moment.

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Fig. 2 shows the LAN of Fig. 1 and the measurement results at the second moment when a person is moving in the monitored state.

Figure 3 shows one possible method that may be used in connection with the invention.

Figure 4 shows another possible method that can be used in connection with the invention.

According to Figure 1, the WLAN of the state to be monitored comprises first and second access points API and AP2 and terminals W1, W2, W3 and W4 connected to the LAN. The terminals W1, W2, W3 and W4, which may be microcomputers, for example, communicate with the access points API and AP2 over a radio frequency connection. From time to time, the access points API and AP2 measure the signal strength from the terminals W1, W2, W3 and W4. Signal strength information is used in the local area network to optimize the transmission power so that the signal strength is sufficient to ensure the quality of the data transmission, but on the other hand not too high in mm. because the energy consumption of the terminals 15 would be kept to a minimum. The method described in this application has realized that signal strength information measured by a LAN can also be used to detect and analyze changes in the environment being monitored.

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Thus, in the example of Figures 1 and 2, four workstations W1, W2, W3 and W4; · 20 are located in the area of influence of the two access points API and AP2. For each workstation * · (workstation-related transmitter) W1, W2, W3 and W4, a measurement result '' is provided to the access point API and AP2. The workstations are displayed at both access points except W1. The method can operate by measuring the reference values of the signal levels in the normal state, which are described in the table of Figure 1.

• M · 25 New signal levels are then measured, for example, every second and compared with the reference values. The measured signal levels are relative and can be given thresholds within which they may vary. The reference level can also be set to '' * update so that the reference level is updated based on the most recent measurements.

Fig. 2 illustrates a situation in which a person moves around a workstation W4. The presence of human »30 appears to be the level of the signal from workstation W4 at the access points API and AP2. A change in the signal level values (W4 / AP1 change 1 -> 0 and W4 / AP2 change 5 -> 2) 112124 4 is detected at the access points and the signal received from the workstation W4 is taken for comparison where the signal level is found to deviate from the reference level. The follow-up of an anomaly detection is predefined in the system and the change information is logged for later review.

5 Detecting a change can, for example, trigger a monitoring mode during which the system is promptly prompted for several new measurements. If no new deviations are detected in the new measurements, the alarm can be omitted and the event logged. If the signal levels deviate from the reference values also in the repeat measurements, 10 alarm messages can be sent from the system to the address stored in the system. The quality and magnitude of the change in signal levels can also be used to interpret the alarm condition. If the change is large, an alarm may be considered more appropriate. An alarm may be particularly appropriate if a signal level change is detected at a plurality of terminal-to-access points in succession. This situation indicates that one or more people are moving in the 15 monitored states. Motion detection can be utilized more efficiently for the more access points the workstation signal is registered.

The system may also be implemented by installing a local monitoring program on a local object to be monitored, which pre-processes the signal levels measured by one or more access control panels. The monitoring program can operate in a limited manner; : in an area, such as an office, building, or campus. Local Supervisors: the task of the program is to perform a local comparison and to report only changed data for further processing of the control '*' · “. This procedure avoids the transmission of stability data and thus saves the transmission bandwidth. It is possible to integrate changed value processing and further processing into other control software quite easily.

. * ··. The method described does not limit the way in which the measurements of the access points are collected.

.;. However, in current LANs, the easiest way is to use the Simple Network (SNMP) query

Management Protocol). The SNMP query can be repeated often enough, but without disrupting other traffic.

: '"; 30 Monitoring can be performed, for example, from a workstation to which the measured level value is transmitted by the WLAN operator. Browser software on the monitoring workstation performs 112124 5 comparisons. The program can be activated to exit the room or after a certain delay to measure the signal level received by the access point. , the workstation sends an alarm message to a centralized alarm center, and the software can also be trained to detect motion and use the resulting 5 reference power curves to generate an alarm.

Figure 3 illustrates one embodiment of the invention. The method of Fig. 3 can be carried out e.g. at each access point. In the method of the figure, the access point receives a new intensity value for the signal transmitted by the terminal and compares the new value with the reference value. If it is interpreted that the new intensity value differs from the reference-10 value, the access point sends a notification to the monitoring state monitoring server. This server can also be one of the workstations connected to the LAN. No action is required if it is interpreted that the new intensity value does not deviate from the reference value.

A person skilled in the art can implement a comparison of a measured intensity value and a reference value 15 in a number of ways. The reference value can be defined, for example, as a fixed value or as a moving average of the last measured values. A tolerance can be defined for the reference value or the reference value can be given in the range. The deviation can also be estimated by a more complex equation.

; Figure 4 shows one possible method for use on a server which; 20 shall be responsible for the supervision of the premises being supervised. According to the method, the server becomes new; ad. The notification may come, for example, from the access point performing the method of Figure 3.

• I The pattern method then identifies the access point that sent the notification and sends a check request to · · all surrounding access points (and also to the “· access point that sent the message, if the check function is not programmed to 25 access points). In the inspection request, the monitoring server asks the access points to perform signal level measurements and report any deviations detected. This.!. After this, the method in the graph waits for the latency to allow the access points to take ... measurements and report any deviations. After the delay time, it will be • checked whether there were any reports of anomalies. If no anomaly was reported, '' 30 it may be considered that the original notification was related to a single event or error that does not require further action. However, it would be most secure to program the system so that 112124 6 would perform the check operation a few more times. If deviations are reported, a more detailed analysis of the deviations will be carried out.

For a more detailed analysis of the occurrences, one or more of the following information may be considered: 5 - magnitude of the occurrence - whether any occurrence of the occurrence of multiple occurrences is relative to each other - the relationship between the occurrence reporting incidents and the occurrence of the occurrence reporting dates.

In the methods of Figures 3 and 4, inspection proceeds in cycles. However, a cyclic inspection routine 10 is not necessary, but it is advantageous to do a deviation review over a period of time when too old deviations are ignored. If the system measures the signal strengths of the connection intervals, for example, every second, a suitable observation period may be, for example, between 3 and 15 seconds.

The foregoing embodiments are intended only to illustrate the invention and to illustrate some possibilities for practicing and utilizing the invention.

. The examples do not limit the scope of the patent in any way, but the scope is defined by the claims appended hereto and also includes everything in the claims 1 1 · '! equivalent embodiments of the defined embodiments.

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Claims (11)

119194 Claims: 1 1 ^ 1 L ^ A surveillance method for monitoring and protecting a monitored room from theft or vandalism, which utilizes a wireless LAN with at least one access point (API, AP2) and at least one terminal (W1, W2, W3, W4), characterized in that - repeatedly measuring the strength of at least one signal between a terminal (W1, W2, W3, W4) and an access point (API, AP2), - monitoring the measured signal strength for detecting a change in strength 10, and - interpreting the alarm condition on the basis of a person moving in the state is detected based on a change in the measured signal strengths. A method according to claim 1, characterized by: - repeatedly measuring the strength of the signal transmitted by at least one terminal (W1, W2, W3, W4) at the access point (AP1, AP2), - · - monitoring the measured signal strength of the change in power \: and 20. interpreting the alert state based on a detected change in the strength of the signal transmitted by the at least one terminal (W1, W2, W3, W4). * ·; The method according to claim 2, characterized by: - defining a reference level and a tolerance for the signal transmitted by each terminal (W1, W2, W3, W4) •: "25, - measuring the new signal strength, 112124 - checking, whether the new signal strength differs from the reference level by more than the permitted deviation, and if so, the measured signal is interpreted as deviating. Method according to Claim 3, characterized in that an inspection is performed which interprets the alarm condition if at least two measured signals are interpreted as abnormal during the inspection. 5. Förfarande enligt patentkrav 4, kännetecknat av att en förutbestämd 10 varaktighet för control and defmierad. Method according to Claim 4, characterized in that the inspection 10 has a predetermined duration. 6. Förfarande enligt patentkrav 4, kännetecknat av att controlen genomförs cykliskt och under control begärsultat Mn vaqe account localnätet tillhörande anslutningsspalt mellan anslutningspunkten (API, AP2) och terminalen (W1, W2, W3, 15 W4). •> ·> ·: 7. Förfarande enligt patentkrav 4, kännetecknat av att controlling installs att * 1 ·; ', | upphöra, dä en normal signalstyrka upprepat mäts frän vaje account lokalnätet tillhörande * I *:: anslutningsspalt mellan anslutningspunkten (API, AP2) och terminalen (W1, W2, W3, 20 W4). »T» t ·: 8. Förfarande enligt face av patentkraven 2-7, kännetecknat av att et alarmtillständ tolkas, tone en förändring inom en förutbestämdid tid observeras i: "styrkan hos en signal, som sänts av ätminstone tvä terminaler (W1, W2, W3, W4 ). Method according to Claim 4, characterized in that the check is performed cyclically and during the check the measurement results are requested for each connection between the access point (API, AP2) and the terminal (W1, W2, W3, W4) belonging to the LAN. The method according to claim 4, characterized in that the check ·, · I is set to end when each access point (API, AP2) * in the LAN. The signal strength between the i and the terminal (W1, W2, W3, W4) is repeatedly measured. The method according to any one of claims 2 to 7, characterized in that '·; · 1 is interpreted as an alarm condition if transmitted by at least two terminals (W1, W2, W3, W4):. · · A change in signal strength is detected within a predetermined time period. 25; ' 1. A method according to any one of claims 2 to 7, characterized by interpreting an alarm condition if a change in the strength of the signal transmitted by the terminal (W1, 112124 W2, W3, W4) is detected within at least two access points (API, AP2) within a predetermined period. 9. Förfarande enligt face av patentkraven 2-7, kännetecknat av att et alarmtillständ tolkas, tone en förändring inom den förutbestämda tiden observeras i '· "= 25 1121? 4 styrkan hos den av terminalen (W1, W2, W3, W4) signalen i ätminstone tvä anslutningspunkter (API, AP2). 10. Förfarande enligt face av patentkraven 1-9, kännetecknat av att för att S utföra signalstyrkemätningen genomförs en SNMP-förfrägan. Method according to one of Claims 1 to 9, characterized in that an SNMP query is made to measure the signal strength. A method according to any one of claims 1 to 10, characterized in that - said wireless LAN is a local area network for data transmission, - said at least one access point (API, AP2) is a local area network used for data transmission - said at least one terminal (W1, W2, W3). W4) the strength of the transmitted signal, which is repeatedly measured, is the strength of the signal used for data transmission. 1 «i» »<I · I i 10 112124 1. akervakakingsingsingsingsör API API API API API API API skyd API API API API API API API API API API APIda API API API API API API API API API API API API API API API API API API API API API API skyd API API API API API API API API skyd API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API API the terminal (W1, W2, W3, W4) and the slave signal, the turn-off of the att - styrkan hos ätminstone en signal mellan terminalen (W1, W2, W3, W4) och anslutningspunkten (API, AP2) mäts upprepat, - the styrkan hos den mätta signalen iakttas för att observera en förändring i styrkan, 10 och - pä basis av en observerad förändring i styrkan hos den mätta ätminstone ena signalen tolkas et alarmtillständ, varvid en i det ververva utrymmet rörlig person observeras förändringen i de mät. 15 2. Förfarande enligt patentkrav 1, kännetecknat av att - i anslutningspunkten (API, AP2) mäp upprepat styrkan hos en signal, som den • * ätminstone ena terminalen (W1, W2, W3, W4) s, * t:. · - styrkan hos den signalen iakttas för att observera en förändring i styrkan, • ♦ •:: och 20. ätminstone ena terminalen (W1, W2, W3, W4) continued that alarm signal, • · * '3. Förfarande enligt patentkrav 2, kännetecknat av att ,, * ,; - the reference terminal och en tilläten avvikelse bestäms för styrkan hos signalen frän 25 (W1, W2, W3, W4), - en ny signalstyrka mäts, 112124 - det controllereras, om den nya signalstyrkan avviker frän reference nera än den tillätna avvikelsen och tint den avviker - tolkas den rotten signalen som avvikande. 5 4. Förfarande enligt patentkrav3, kännetecknat avattenkontroll genomförs, the colors that the alarm still sticks, the omnibox signaler sticks som avvik under under control. 11. Förfarande enligt face av patentkraven 1-10, kännetecknat av att - nämdlösa lokalnät utgörs av et lokalnät för datakommunikation, - nämnda ätminstone ena anslutningsunkt (API, AP2) utgörs av et lokalnät för 10 datakommunik ätminstone ena terminalen (W1, W2, W3, W4) sands signalen, som upprepat mäts, utgörs av styrkan hos en signal för data communication. 15 0 0 0 »♦» »« f 0 * 0 t 0 * »t • * ·