EP1070310A2 - Traffic law enforcement system having decoy units - Google Patents
Traffic law enforcement system having decoy unitsInfo
- Publication number
- EP1070310A2 EP1070310A2 EP97948113A EP97948113A EP1070310A2 EP 1070310 A2 EP1070310 A2 EP 1070310A2 EP 97948113 A EP97948113 A EP 97948113A EP 97948113 A EP97948113 A EP 97948113A EP 1070310 A2 EP1070310 A2 EP 1070310A2
- Authority
- EP
- European Patent Office
- Prior art keywords
- enforcement
- signal
- unit
- video
- traffic law
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn
Links
Classifications
-
- G—PHYSICS
- G08—SIGNALLING
- G08G—TRAFFIC CONTROL SYSTEMS
- G08G1/00—Traffic control systems for road vehicles
- G08G1/01—Detecting movement of traffic to be counted or controlled
- G08G1/017—Detecting movement of traffic to be counted or controlled identifying vehicles
- G08G1/0175—Detecting movement of traffic to be counted or controlled identifying vehicles by photographing vehicles, e.g. when violating traffic rules
-
- G—PHYSICS
- G08—SIGNALLING
- G08G—TRAFFIC CONTROL SYSTEMS
- G08G1/00—Traffic control systems for road vehicles
- G08G1/01—Detecting movement of traffic to be counted or controlled
- G08G1/052—Detecting movement of traffic to be counted or controlled with provision for determining speed or overspeed
- G08G1/054—Detecting movement of traffic to be counted or controlled with provision for determining speed or overspeed photographing overspeeding vehicles
Definitions
- This invention relates to traffic enforcement devices for use in enforcing traffic ordinances. More specifically, this invention relates to remotely operated enforcement devices having speed detection and recording means.
- the step of pursuing and detaining traffic ordinance violators can be dangerous to the police officer and the public at large. For example, an irate driver threatens the officer, the driver makes an effort to evade the officer, initiating a high speed chase, or the driver pulls over in an unsafe area on the highway, thus subjecting others to an unnecessary danger of collision.
- Traffic enforcement devices which provide a means for enforcement of the traffic ordinances without the direct involvement of a police officer or a patrol vehicle, have been in use for some time in Europe and in other regions of the world.
- U.S. Pat. Nos. 4,866,438 and 5,066,950 describe remotely located devices which include a radar device and means of automatically triggering a high resolution photographic camera when a vehicle passes within its field of detection. These systems require matching of the license plate number read from a photograph taken by the camera with a number in a database of registered vehicles in the state, region or nation. Upon identification, a traffic citation is issued and mailed to the registered owner of the vehicle in a non-confrontational manner without utilizing a patrol vehicle or a police officer's time.
- a traffic law enforcement system having one or more enforcement units and decoy units, and a releasable engagement mechanism corresponding to each enforcement unit and decoy unit.
- the enforcement units are capable of vehicle speed detection and identification to enable enforcement of the speed limits by subsequent ticketing.
- the decoy units have an external appearance substantially indistinguishable from an enforcement unit. Both decoy units and enforcement units are preferably positioned in prominent, highly-visible locations throughout a traffic flow area.
- the engagement mechanism enables the substitution of enforcement units for decoy units, and vice versa, thus increasing the difficulty of a driver to determine whether a given unit is active. This decreases the number of enforcement units required in the system to effectively reduce the frequency of speed limit violations by increasing the risk of driving in excess of the speed limit. Fewer units results in a lower cost and complexity for the entire system.
- the traffic law enforcement system includes one or more containment housings (each containment housing being positioned at a predetermined location along a traffic flow route), one or more enforcement units releasably engageable into each containment housing; and a releasable engagement mechanism which engages and disengages the enforcement units from the containment housings.
- the traffic law enforcement system's containment housing effectively conceals the presence or non-presence of the enforcement unit, the containment housing itself becoming a decoy unit when the enforcement unit is removed.
- the containment housings receive a decoy unit of an enforcement unit which effectively conceals the presence or non-presence of the enforcement unit.
- the enforcement unit includes a containment housing containing an inner assembly.
- the inner assembly includes a high resolution still camera, a speed detection system which generates an output signal, a first embeddor which embeds the output signal in a register, a second embeddor which embeds the contents of the register into a photograph of the high resolution still camera, a signal generator which generates an identifying signal (i.e., a signal which identifies the particular event — a clock may suffice) and a third embeddor which embeds the identifying signal in a second register, a fourth embeddor which embeds the contents of the second register into a photograph of the high resolution still camera, a comparator trigger which processes sample output signals over time, such that, for example, when the sampled signals reach a maximum (e.g., when the slope of the outputs graphed against time becomes zero, the samples taken just prior to the slope becoming zero have a greater magnitude than the magnitude of the output signal when the slope is measured as zero, and where the absolute value of
- the enforcement unit includes a containment housing and an inner assembly received in the containment housing.
- the inner assembly includes a video camera, a high resolution still camera, a speed detection system which generates an output signal, a first embeddor which embeds the output signal in a video signal generated by the video camera and in a register, a second embeddor which embeds the contents of the register into a photograph of the high resolution still camera, a recorder which records the video signal, a signal generator which generates an identifying signal and embeds the identifying signal in the video signal and in a second register, and a third embeddor which embeds the contents of the second register into a photograph of the high resolution still camera.
- the enforcement unit includes a first video transmitter for transmitting the video signal, a second receiver for receiving a command signal, a servo switch which controls the shutter of the high resolution still camera as commanded by the command signal, and a command station which receives the video signal and generates the command signal.
- the traffic law enforcement system may also include within the inner assembly, a video mixer or title maker (a device known in the art for generating titles on video screens) which embeds the output signal into the video signal generated by the video camera; a signal generator which generates an identifying signal which the title maker embeds in the video signal.
- the command station includes a first video receiver which receives the video signal and demodulates the video signal, means for extracting the output signal of the speed detection system, a display monitor which displays the video signal and the output signal of the speed detection system, an operator-actuated switch which generates the command signal, a transmitter which modulates and transmits the command signal to the enforcement unit; and at least one decoy unit which has an external surface which is substantially visually indistinguishable from a said enforcement unit.
- the traffic law enforcement system includes flashing lighting electrically and mechanically attached to the containment housings.
- a releasable engagement device having a rod with a first interface on either end.
- the first interface is releasably engageable with a second interface on a containment housing such that decoy units and enforcement units may be removed and installed thereby.
- the flashing lighting attached to the containment housing is selectively activated from a remote location via a receiver mounted in the flashing lighting, the receiver being responsive to signals from a remote sending unit.
- the decoy units emit a dummy radar or laser signal which further disguise the dummy units, making them indistinguishable from enforcement units.
- the decoy units are enforcement units which emit a dummy radar or laser signal.
- the operator at the command center chooses which enforcement units to monitor, switching the dummy signal on in all units which he is not monitoring.
- the flashing lighting of both the decoy units and the enforcement units is activated and deactivated in a substantially random fashion.
- the inner assembly further includes an opaque housing which conceals from view its interior so that when the assembly is releasably engaged with the containment housing, a third-party observer is unable to distinguish an enforcement unit from a decoy unit and vice versa.
- the containment housing includes a panoramic portal extending through an arc around the containment housing, the arc being of an angular magnitude sufficient to enable the repositioning of the enforcement unit within a range of predetermined angular increments which will permit easy adjustment of the field of view of the components within the inner assembly, thus allowing the enforcement unit to target oncoming vehicles approaching the containment housing from a number of different lanes of a highway.
- the high resolution still camera creates a high resolution digital image which is transmitted to the command station to aid in the identification of an alleged traffic law violator.
- a video camera and a high resolution camera are used.
- the high resolution camera creates a high resolution digital image which is indexed and stored for later retrieval and identification of an alleged violator. This enables real-time transmission of the lower resolution video image, and transmission of larger high-resolution image files during off-peak hours via a telephone line.
- a modem or a comlink in the case of a network connection
- a method to enforce certain traffic laws.
- This method includes the steps of (a) enforcement of a segment of a street, comprising the steps of (i) using a video camera to generate a real-time video signal of an area within the field of view of a hi- resolution camera located within an enforcement unit and transmitting the image to a command station; (ii) using a speed detection system to generate an output signal of the speed of objects within the field of view of the video and hi-resolution cameras; (b) sampling the output signal using a sampling comparator trigger which processes sample output signals over time, such that, for example, when the sampled signals reach a maximum (e.g., when the slope of the outputs graphed against time becomes zero, the samples taken just prior to the slope becoming zero have a greater magnitude than the magnitude of the output signal when the slope is measured as zero, and where the absolute value of the magnitude of the output signal is greater then zero) and the maximum value of the output signal exceeds the posted speed limit by a predetermined margin, the high resolution still
- a high resolution video camera and video capture device are used. This permits capture of high resolution images directly from the video image, thus eliminating the need for a high resolution still camera.
- a personal computer (“PC") is provided at the command station or within the enforcement unit, or both. The video image is captured into the storage system of this personal computer, for later retrieval or deletion.
- an infrared video camera is used, thus enabling capture of images at night or at low lighting conditions.
- closed-circuit communications cable e.g., a computer networking cable
- closed-circuit communications cable is used to provide a communications link between the enforcement unit and the command station, thus eliminating the ability of the communication signals to be jammed.
- the communications link between the enforcement unit and the command station is a telephone line.
- the signals generated by and between the command station and the enforcement unit may be transmitted across power lines, provided that authorization from the cognizant authorities is obtained.
- the signals generated by and between the command station and the enforcement unit are transmitted via a satellite relay.
- the containment housing is fabricated from "LEXAN", thus protecting the internal electronics from projectiles.
- the video camera, the speed detection system, and the high resolution still camera are mounted together on a frame in order that they may be preset to be trained on the same point.
- a remotely operated servo-controlled gimbal controls the targeting of the cameras according to the desire of the operator at the command station.
- Fig. 1 is a landscape view showing the basic components of the system of the present invention.
- Fig. 2a is a perspective view of an enforcement unit and a mounting structure of the system of the present invention.
- Fig. 2b is a perspective view of an alternate embodiment of the mounting structure of the system of the present invention.
- Fig. 3a is a schematic view of an enforcement unit of the system of the present invention.
- Fig. 3b is a hybrid schematic-flow diagram of an enforcement unit of the system of the present invention.
- Fig. 3c is a schematic view of a decoy unit of the system of the present invention.
- Fig. 4 is a perspective view of an enforcement unit of the system of the present invention, mounted to the mounting structure shown in Fig. 2a.
- Fig. 5 is a hybrid schematic-flow diagram of an enforcement unit of the system of the present invention.
- Fig. 6 is an exploded view of an enforcement unit and mounting structure of the system of the present invention.
- Fig. 7 is a perspective view of a command station of the system of the present invention.
- Fig. 8 is a hybrid schematic-flow diagram of an enforcement unit of the system of the present invention.
- Fig. 9a is a perspective view of a command station of the system of the present invention.
- Fig. 9b is a perspective view of a command station of the system of the present invention.
- Fig. 10 is a hybrid schematic-flow diagram of an enforcement unit which interacts with the command station of Fig. 9a or 9b.
- Fig. 11 is a flow diagram of a method of the present invention.
- Fig. 12 is an exploded perspective view of a containment housing and enforcement unit of the present invention.
- Fig. 13 is a flow diagram of an ancillary method of the invention. Detailed Description of the Preferred Embodiment
- the traffic law enforcement system 18 includes an enforcement unit 20, a decoy unit 22, and a receiving interface 24 onto which either the enforcement unit or the decoy unit may be engaged.
- identifying indicia 82 is placed on a visible portion of an automobile 80, such indicia including a conventional license plate, inspection sticker, registration sticker, or alphanumeric symbols placed on the surface of the automobile.
- the decoy unit 22 when engaged by a receiving interface 24a, has an exterior appearance substantially visually indistinguishable from an operational enforcement unit 20, thus effectively eliminating the ability of a driver on a highway or street 90 adjacent or below the decoy unit 22 to discern whether the unit is operational (i.e., capable of enforcing the traffic laws).
- This lack of knowledge creates a risk of being ticketed in the mind of the potential violator which may only be reduced to zero if he complies with the traffic ordinance.
- the psychological impact is greater compliance with the traffic laws.
- the receiving interface 24a and a mating interface 36 enable routine relocation of an enforcement unit 20 to other geographic locations, and the substitution of a decoy unit 22 in the place of an enforcement unit (or, alternately, the activation of one enforcement unit and the at least partial deactivation of another enforcement unit, the latter unit now acting as a decoy unit), thus increasing the difficulty of a driver discriminating between active enforcement units and decoy units, decreasing the number of active enforcement units required in the system, and, consequently, decreasing the complexity and cost of the entire system 18.
- the enforcement unit 20 includes a mating interface 36, shown in dashed lines, a housing 100, an image capture device (e.g., a high resolution still camera 26) and a speed detection system 30.
- the receiving interface 24a includes a mounting portion 32 and an interface end 34 which releasably engages with the mating interface 36 on either the enforcement unit 20 or the decoy unit 22.
- the mounting portion 32 is specially fabricated to interface with and securely mount to a structure 40, adjacent to or above a highway or street, using a locking device 43 to prevent tampering.
- the receiving interface 24a and an alternate interface 24b enables secure, precise and repeatable attachment of an enforcement unit 20 or decoy unit 22 to various types of structures, such as a concrete railing, a side wall of an overpass, or a dedicated support structure.
- a power and/or communications junction box 45, and corresponding cable conduit 47 attach to the structure 40.
- a power and/or communications cable 49 connects to the junction box 45.
- the receiving interface 24a or 24b includes a mounting frame 42 which is permanently affixed to the structure 40 using conventional fastening devices, such as bolts 44.
- the mounting portion 32 has the form of a hanger having a clamping end 46 which affixes to a highway structure 40, and an interface end 34 which releasably engages with either the enforcement or decoy unit 20 or 22.
- the housing 100 of the enforcement unit 20 further contains a strobe device 152, a flash device 142 (used when the image capture device 26, "ICD", is a still camera), a wiper device 156 and moisture or water-activated sensor 160, a speed detection system 30, a personal computer 120 ("PC"), and an XCVR 121.
- the PC 120 includes RAM memory, hard disk storage, a video card, video ports, serial ports, input/output ports such as parallel ports, a network connector 123, software, a power supply, and other components typically found in a personal computer.
- the image capture device 26 connects to the PC via a video port, for example.
- the speed detection system 30 connects to the PC via a RS-232 cable 125 and connections.
- the PC 120 connects to the XCRV 121 which receives and transmits (including necessary modulation and demodulation) transmissions between the PC and a central network computer (e.g., 350, shown in Figs. 7, 9a, 9b, and 10) at a command station (e.g., 220 or 221), as necessary, thus connecting the PC to a network which an operator 212 at the command station controls.
- the strobe device includes a light 152 connected to a flasher or strobe relay 153b which in turn connects to and is controlled by the PC, via a parallel, i/o port.
- the housing 100 contains a high resolution still camera 26, a speed detection system 30 ("SDS") which generates an output signal, a comparator trigger 102 ("CT”), a first register 104 ("Rl") which embeds the output signal into an image 106 captured by the high resolution still camera, a clock 110 which embeds the time and date into the image 106, a data input storage area 112 (abbreviated "DISA”) into which is stored the location of the alleged violation and from which identifying information is embedded into the image 106, and a personal computer (“PC”) 114 having the usual components, such as a video card 116, CPU 127, ram memory 122 and hard disk storage 124, software 126, and a power supply 150.
- SDS speed detection system 30
- CT comparator trigger 102
- Rl first register 104
- DISA data input storage area 112
- PC personal computer
- the PC 114 is IBM compatible computer having at least a 486 microprocessor (preferably a "PENTIUM” 133, or better), at least 16 MB of RAM memory, and a hard disk with at least 1 GB of available storage. Also, the PC 114 is loaded with "WINDOWS” 3.11 or better ("WINDOWS 95" OR “WINDOWS NT” is preferred).
- the comparator trigger 102 processes sample output signals over time, such that, for example, when the sampled signals reach a maximum (e.g., when the slope of the outputs graphed against time becomes zero, the samples taken just prior to the slope becoming zero have a greater magnitude than the magnitude of the output signal when the slope is measured as zero, and where the absolute value of the magnitude of the output signal is greater then zero) and the maximum value of the output signal exceeds the posted speed limit (input from a register 103 along with a location code via a keyboard port when the enforcement unit was initialized) by a predetermined margin, the high resolution still camera 26 is triggered, and the video capture card 116 captures a high resolution image 106 of any vehicle 130 within the field of view 132 of the hi-resolution camera.
- a maximum e.g., when the slope of the outputs graphed against time becomes zero, the samples taken just prior to the slope becoming zero have a greater magnitude than the magnitude of the output signal when the slope is measured as zero, and where the absolute value of the magnitude
- the speed detection system 30 is trained on a point along a highway or street.
- the comparator trigger 102 operates when a vehicle 130 passes through this point in space at a speed in excess of a predetermined margin over the local speed limit (a value input from a register 103 which was initialized at the time the enforcement unit was installed, along with the location code).
- the still camera 26 is trained on the object whose measured speed triggered the still camera, then the image 106 captured by the still camera will be of the vehicle 130 which triggered the comparator trigger.
- the still camera 26 is a digital camera, having a zoom lens 134.
- the zoom lens 134 creates a magnified, high resolution digital image 106 which is stored in hard disk storage 124 for later retrieval, to aid in the identification of an alleged traffic law violator.
- Suitable still cameras include the "FOTOMAN PIXTURA” by Logitech, capturing a 24 bit color image in a resolution as high as 768 X 512 pixels.
- the zoom lens is attached to the still camera 26 via a special frame (not shown).
- the still camera 26 may be of the type which includes a built-in zoom lens, such as "KODAK DIGITAL SCIENCE DC50 ZOOM” by Kodak, capturing a 24 bit color image in a resolution as high as 756 X 504 pixels with a built-in 3X zoom capability.
- a built-in zoom lens such as "KODAK DIGITAL SCIENCE DC50 ZOOM” by Kodak, capturing a 24 bit color image in a resolution as high as 756 X 504 pixels with a built-in 3X zoom capability.
- the "PHASE ONE" model CB66 Digital Camera Cover and "HASSELBLAD” camera combination available from Phase One Company of Northport, New York, producing an image in a resolution as high as 5000 x 7142 pixels.
- the PC should include sufficient RAM and have a microprocessor of sufficient speed (a 486 microprocessor is insufficient in this case - a "PENTIUM PRO" 233 MHz machine having 32 MBytes of RAM is recommended).
- the still camera 26 connects to the PC via an RS-232 connection.
- the still camera 26 automatically captures a digital image 106 of the objects 130 within its field of view 132 each time it is triggered by the comparator trigger 102.
- a software program 126 running in RAM memory 122 and processed by the CPU 127, controls the processing of the digital image 106.
- the processing of the digital image 106 involves the steps of (a) downloading of a digital image 106 taken by the still camera 26; (b) editing the image 106 wtth characterizing data; (c) storing the image 106 in ram memory 122; (d) editing or appending the image 106 to include characterizing information, such as the time input from the clock 110, the speed input from the register 104, the location and other identifying input from the DISA 112; and (h) re-saving the edited photograph into memory for later retrieval via modem, network line data transfer, or manual removal.
- the still camera 26 has a physical cross-hair or bulls eye-like marking (not shown), as in a rifle scope, positioned such that it substantially coincides with the point from which the speed detection system 30 receives its speed measurement. If such is not part of the image 106 captured by the still camera 26, then the cross-hair graphic may be edited into the image 106 during the above editing stage.
- the still camera 26 includes an infrared flash 140 mounted to the housing 100.
- the infrared flash 140 has an infrared filter 142, thus enabling the capturing of infrared images 106 of a moving vehicle 80 or 130 at night or day without startling, momentarily blinding or otherwise disturbing the driver.
- the infrared flash 140 may be a conventional flash having a filter which filters out most non-infrared light waves.
- the speed detection system 30 is a laser -based system.
- the use of a laser enables precise selection of lanes of traffic to target, and minimizes the possibility that the output signal of the speed detection system 30, which is edited into the digital image 106, was not that of the vehicle 130 within the field of view 132 of the still camera 26.
- suitable laser speed detection systems are the "PRO-LASER” system by Kustom Signals, Inc. of Lenexa, Kansas, and the "LTI 20-20 MARKSMAN” by Laser Technology Inc. of Englewood, California.
- the housing 100 of the enforcement unit 20 further includes a panoramic portal 154 extending through an arc on the housing, the arc being of an angular magnitude sufficient to enable the retargeting of the still camera 26 within a range of predetermined angular increments which will permit easy adjustment of the field of view 132 of the components within the housing 100, thus allowing the enforcement unit 20 to target oncoming vehicles 130 approaching the enforcement unit from a number of different lanes of a highway without requiring relocation of the enforcement unit.
- Retargeting of the still camera 26 may be performed by the operator 212 at the command station or by randomly selecting lanes to target from x, y, and z coordinates which are preselected in a setup procedure.
- the random selections are made by the PC 120 with the aid of a random number generator and corresponding computer program.
- the physical repositioning of the camera 26 and speed detection system 30 is accomplished through a servo-controlled 2 axis pan-and- tilt worm gear drive 210, described in more detail below in connection with Fig. 6.
- the wiper device 156 mounts above the portal 154.
- the wiper device 156 includes a moisture or water-activated sensor 160 which causes the wiper to wipe moisture from the portal 154 at predetermined intervals.
- the housing 100 further includes handles 162 mounted on the housing to facilitate the process of substituting an enforcement unit 20 for a decoy unit 22 and vice versa.
- built-in blowers 164 and a heater 166, together with a thermostat 170 and circuit 170 are provided to avoid temperature extremes beyond the operational limits of the enforcement unit 20.
- the decoy unit 22 of the present invention includes a housing 100, an optional emitter 31 ("E") which emits radar waves or a laser beam of sufficient strength to trigger any radar or laser detectors which a passing vehicle may utilize.
- the emitter 31 is powered by a power supply 150 ("PS") which also supplies power to (1) optional flashing lighting 152 which is fastened to the housing 100 for the purpose of increasing the difficulty in distinguishing between a decoy unit 22 and an enforcement unit 20, and/or (2) an optional nonfunctional wiper assembly 156a.
- a flash device 142 optionally connects to the emitter 31 such that when the beam or wave emitted by the emitter 31 is broken, the flash device is automatically triggered.
- a method is provided to enforce the traffic law which requires a minimum of manpower, and relative simplicity.
- This method includes the steps of (a) making it known to the driving public, at least in part through ticketing for offenses recorded by the traffic law enforcement system, that a prominently displayed, stationary, enforcement unit 20 having a particular appearance is capable of recording an image 106 of a vehicle 130 which is violating the traffic laws, the image being of sufficient detail to identify the vehicle (and, where a video camera is used, a witness may be able to testify against the violator in court, thus making it likely that any tickets issued to the violator will be enforceable); (b) distributing modular, interchangeable devices having the appearance of these enforcement units 20 throughout a traffic flow area of a region, these devices including both fully functioning enforcement units 20 and essentially nonfunctioning decoy units 22 (i.e., units incapable of actually recording an image 106 of a vehicle 130); (c) substituting (either randomly, using a random number generator, in a periodic fashion, or as maintenance is
- An advantage achieved with the present invention is that a system 18 is provided which enables effective, low cost, simple enforcement of traffic ordinances without requiring that (1) a police officer and patrol vehicle pursue and detain suspected traffic ordinance violators, or (2) that each unit of the system be fully functional.
- the image capture device further includes a video camera 202, a register 204 ("R") which receives the output signal of the speed detection system 30 and embeds the output signal in a video signal generated by the video camera.
- R register 204
- a high quality video camera is used with this system. Outdoor cameras require automatic backlight compensation to obtain good performance since the lighting range from bright sunlight to darkness is much more severe outdoors than it is indoors.
- the video camera 202 also may have a zoom lens 135.
- the zoom lens 135 is an Auto Iris Motorized Zoom Lenses which is designed to work with automatic light compensation. This zoom lens 135 further has remote electronic zoom capabilities using a remotely operated joystick controller.
- the camera sees approx 50' width at 100' distance.
- the camera sees approx 10' width at 100'.
- the camera sees a 3' width. This is sufficient to enable a closeup of a persons face at 100'.
- the enforcement unit 20 further includes a first video modulator 222 for modulating the video signal, a first video transmitting device 224 for transmitting the video signal over a communications path 226, a receiving dish 50 for receiving a command signal over a communications path 230, a demodulator 232 for demodulating the command signal, a storage area 234 ("SA") in which the communications signal is stored, and a command station 220 (shown in Fig. 7) which receives the video signal and generates the command signal.
- SA storage area 234
- the video camera 202 (NTSC capable), the speed detection system 30, and the high resolution still camera are preset to be trained on the same point and then fixed in place on a common frame 206.
- the gear drive 210 controls the position of the frame 206 and therefore the targeting of the cameras 26 and 202 according to the desire of the operator 212 at a command station 220.
- Suitable pan-and-tilt worm gear drives 210 include that used on "SLUG VIDEO" by Computer Engineering of Santa Cruz, California.
- pan-and-tilt worm-gear drive is a component of the "PRO WEATHERPROOF VIDEO SURVEILLANCE SYSTEM", part no. HA S-7696, available from by Home Automation Systems, Inc . , at http://www.techmall.com/smarthome/opkiG.html.
- a receiving dish 50 and a transmitting device 52 are affixed to the mounting frame 42 of the receiving interface 24 via a stanchion 54 and a mounting gimbal assembly 56, and are undisturbed when the enforcement unit 20 or the decoy 22 is removed from the receiving interface 24.
- This permits one-time targeting of the receiver 50 and the transmitter 52 to its associated line-of-sight cell, hub or router 60.
- the subsequent interchange of an enforcement unit 20 with a decoy unit 22 does not disturb the targeting of the receiver 50 or the transmitter 52.
- the command station 220 includes a first video receiving dish 240 which receives the video signal, a first video demodulator 242 which demodulates the video signal, a display monitor 246 which displays the video signal and the embedded output signal of the speed detection system 30, a recorder 250 which records the video signal, an operator-input device 252 which generates the command signal, a second modulator 254 which modulates the command signal, a second transmitting device 256 which transmits the command signal to the enforcement unit 20 over the communications path.
- the CPU 127 samples the contents of the SA 234. When a fresh command signal is received from the command station 220, this provides the input which determines whether the digital image 106 of the photograph will be edited for identifying inputs and stored for transfer to the command station 220 or deleted so as to make room in computer memory storage 124 for another image. This is accomplished in conjunction with a commonly available video capture board 129 in the PC 120.
- a system software program 260 operates on the CPU 127 and controls the editing of the digital images 106, and involves the steps of: (a) taking a high resolution digital photograph 106; (b) storing the photograph 106 in ram memory 122;(c) awaiting a command signal from the command station 220, the receipt of which identifies the operator 212 and confirms that the operator had witnessed the violation; (f) transmitting the inputs over the communications path to the enforcement unit 20; (g) receiving the inputs; (h) taking the inputs from the operator 212 and associating the inputs with the photograph 106 in, for example, a database record structure; (h) and saving the associated inputs and photograph 108 into hard disk storage 124 (as photograph 108, for example) for later retrieval via modem, network line, data transfer, wireless, or manual removal.
- the image 106 is discarded. However, when the identifying signal from the witness/operator 212 is received, the image 106 is stored.
- the images 108 of the still camera 26 which were stored during the course of a day are transmitted across the communications path between the command station 220 and the enforcement unit 20 at an appropriate time, such as during a period of low use or low noise (e.g., in the nighttime hours).
- the communications path is a telephone line
- the image 108 is transmitted via modem to the PC at the command station, the PC having corresponding to answer and communicate with the PC at the enforcement unit (in a similar manner as that of a Bulletin Board System).
- This enables real-time transmission of the lower resolution video image, and transmission of larger high-resolution image files during off-peak hours via a telephone line.
- the transfer should take place immediately over the network line via a comlink.
- the first alternate embodiment used a slightly different method to identify the violator.
- This method includes the steps of (a) enforcement of a segment of a street, comprising the steps of (i) using a video camera 202 to generate a real-time video signal of an area within the field of view 132 of a still camera 26 located within the housing 100 of an enforcement unit 20; (ii) using a speed detection system 30 to generate an output signal of the speed of objects 130 within the field of view of the video camera 202 and still camera 26; (b) sampling the output signal using a sampling comparator trigger 102 which $$processes sample output signals over time, such that when the sampled signals reach a maximum (e.g., when the slope of the outputs graphed against time becomes zero, the samples taken just prior to the slope becoming zero have a greater magnitude than the magnitude of the output signal when the slope is measured as zero, and where the absolute value of the magnitude of the output signal is greater then zero) and the maximum value of the output signal exceeds the posted speed limit (input from a register
- a modem may be provided which transmits the images, which were stored during the course of a day, over a communications path between the command station 220 and the enforcement unit 20, at an appropriate time, such as during a period of low use (e.g., in the nighttime hours).
- This feature will be particularly useful where the digital images captured are very large, as those which are generated by the "HASSELBLAD" camera described above.
- an advantage of this first alternate embodiment of the present invention is that it also provides a witness 212 to the alleged violation who has the capacity to testify against the violator in a court of law, thus complying with certain state laws which require a witness to the violation for enforceability.
- a further advantage of this embodiment is that one operator 212 may monitor and ticket several drivers within a short period of time, because it is no longer necessary that a police officer flag down, stop and query the driver prior to securing sufficient information for ticketing.
- the enforcement system 18 of the present information permits a image 108 of the violation to be recorded automatically, for later identification at a more convenient time.
- the system program 268 displays the image output of several enforcement units 20 on a split screen, several locations may be monitored by the same operator 212, thus expanding the geographic coverage of the system as compared to a single officer using a patrol car.
- the location of the PC or PCs is not critical, as the same can be located within the enforcement unit, at the command station, or one PC each at both locations.
- the image capture device used in the invention may be one of several alternative capture devices.
- One such capture device is a camera 26.
- the video camera 300 is a digital, high resolution video camera having a motorized zoom lens 304 (e.g., part no. HAS-7696A, 8 - 48mm motorized zoom lens or part no. HAS-7696B, 16 - 160mm, motorized zoom lens, available from Home Automation Systems, Inc.).
- a motorized zoom lens 304 e.g., part no. HAS-7696A, 8 - 48mm motorized zoom lens or part no. HAS-7696B, 16 - 160mm, motorized zoom lens, available from Home Automation Systems, Inc.
- Two examples of compatible cameras are the "PANASONIC" black and white video camera, part no. HAS-7695A (380 Lines 0.3 Lux Auto Backlight Compensation), or the "TOSHIBA" COLOR video camera, part no. HAS-7695B(330 Lines 3 Lux Auto Backlight Compensation), both available from Home Automation Systems, Inc.
- One video capture device 302 also know as a frame grabber, is Model No. HRT-512, available from High-Res Technologies.
- the High-Res Technologies frame-grabber (“High-Res board”) has a board which mounts in the PC and a resident software development support system which enables the writing of applications which access the High-Res board directly so that the image, a single frame of video, may be captured with a minimum of programming development time. Because the on-board memory captures a single frame of moving video, each frame represents a time interval of l/30th of a second, thus permitting good resolution images of moving objects, such as moving vehicles.
- the HRT-512 is a video capture card which plugs into a bus inside the PC.
- Another suitable video capture device 302 is the "SNAPPY” available from Play, Inc. of Collinso Cordova, California.
- the "SNAPPY” is is an external device which attaches to the parallel port of the PC and which is fully software programable such that it may be instructed by a program to grab an image when a certain event occurs, such as a speed detection system detecting a speeding vehicle 130.
- the "SNAPPY” captures images of very high resolution.
- Still another suitable image capture device is the Al "GOTCHA", which has the additional capability of capturing video clips.
- the speed detection system 30 connects to a register 104 and to the comparator trigger 102.
- the register 104 embeds the measured speed in real time in an image 310 of the video camera 300.
- the comparator trigger 102 connects to the register 103.
- the comparator trigger 102 connects to a modulator 312, rather than to a camera.
- the modulator 312 connects to a transmitting device 314.
- a command station 221 is shown.
- a receiver 316 tuned to receive the signals transmitted by the transmitter 314, connects to a demodulator 320.
- the demodulator 320 connects to the High-Res Board 321 ("VCD").
- the High-Res board 321 is integrated, via software and hardware, into the PC 350, such that when the system program (e.g., 260, 268) detects a violation, an image is automatically captured, and is stored on the condition that the operator 212 confirm his witnessing of the violation through an input device, such as the keyboard 252 or a mouse 253. At any point in time, however, the capture may be initiated by the operator 212 through the mouse 253, simply by clicking on a screen icon 255. This is particularly useful when enforcing non-speed-related violations such as occupancy on an HOV lane.
- the video camera 300 connects to an embeddor 332.
- the embeddor 332 embeds input signals from the register 104, the register 334, a register 335 (which stores information received from the command station 221 which identifies the operator 212), and the clock 110, into the image 310 in real-time.
- the embeddor 332 connects to a modulator 336, which is in turn connected to a transmitting device 340.
- a receiving dish 240 tuned to receive the video signals transmitted by the transmitter 340, connects to a demodulator 342.
- the demodulator 342 connects to the video capture device 302.
- the video capture device 302 (“VCD”) connects, via a video capture interface board, to a printer switchbox 344 ("SW") via a parallel cable 346.
- the switchbox 344 connects to an output device, such as a high resolution printer (not shown), via cable 347.
- the non-physical, software/communications interconnections are performed digitally. Software detects a "save image" command from the operator over the network. The image is then saved in a database together with identifying information such as the local speed limit, the location and time of the violation, and the vehicle speed.
- a command station 221 which used the "SNAPPY" video capture device.
- a receiver 316 tuned to receive the signals transmitted by the transmitter 314, connects to a demodulator 320.
- the demodulator 320 connects to an actuator 322.
- the actuator 322 is powered through a 110V AC-to-9V DC converter 324, which also powers the video capture device 302.
- the actuator 322 has a plunger 326 which the actuator activates when an actuation signal is received by the receiver 316.
- the plunger 326 is adjacent an actuation button on the video capture device 302.
- the converter 324 connects to the video capture device 302.
- a frame 330 rigidly connects the actuator 322 and the video capture device 302 together.
- the plunger 326 may be manually activated by the operator 212.
- the enforcement unit 20 has a keyboard port 354 which connects to the register 334.
- the register 334 connects to the embeddor 310.
- a 500W Infrared (“IR”) illuminator 356 connects to the housing 100, and includes a light sensor switch 360. This illuminator provides infrared lighting that is virtually invisible to the human eye (only 0.01 % of visible spectrum is transmitted) but visible to video cameras sensitive to the IR spectrum above 700nm.
- the illuminator 356 includes a 500W lamp, thus allowing illumination as far as 400ft in total darkness.
- the light sensor switch 360 is a photocell which automatically turns unit on at night and off at dawn.
- a housing 362 houses a PC which has a central processing unit 364, memory (not shown), and a power supply 366, as well as other components typically found in a PC.
- the PC 350 includes a power supply 370, a video card 372, the parallel printer port 346, a key board port 374, a monitor port 376, a CPU 380, other typically present components, and all associated enclosures, connecting cables and power lines.
- the PC 350 is loaded with an operating system, an optional graphics program, a customized video capture ("VC") program, and a system program 358.
- the operating system is either "WINDOWS 3.11” or "WINDOWS 95" PC.
- the VC program, the graphics program and the video card 372 enable processing of the video image 310 after capture, if desired.
- the graphics program may be one of a number of compatible programs, including "FAUVE MATISSE", “COREL DRAW”, and “MICROSOFT IMAGER,” all commonly available at software retail outlets.
- the system program 358 includes menu bars, input and output prompts, and a layout identifying the traffic law enforcement system 18 which facilitate use for the specific application of remotely monitoring and recording violations of the traffic laws for later enforcement through ticketing.
- the video capture device 302 captures a digital image 310 of the objects 130 within the field of view of the video camera 300 whenever the video capture device is triggered by the comparator trigger 102.
- the operator 212 then has a 10 second period following capture to decide if the image 310 should be saved for later retrieval for ticketing. If the operator 212 does not respond within this period, the image 310 is deleted.
- the period may vary from the preferred period of 10 seconds, but should be short enough to ensure that the operator 212 was close enough to the monitor 246 to have been able to witness the violation.
- the time, date, location, local speed limit, supplemental graphics such as intersecting horizontal and vertical cross-hairs corresponding to the laser beam's contact point on the vehicle, and the actual recorded speed are captured as part of the video image 310 or stored separately.
- the identifying indicia of the witness/ operator 212 of the violation is received from a register 382 which is embedded in the image 310 after the capture of the image, or stored in the database.
- the processing of the video images 310 is performed by the system program 358, and involves (a) displaying the image together with identifying information, time, location of the violation, local speed limit, and vehicle speed when the remote unit senses that a vehicle having a speed which exceeds a predetermined limit; (b) beginning a count down of 10 seconds; (c) concurrently awaiting an input from the operator 212 that he witnessed the violation; (d) deleting the captured image 310 at the end of the count down, UNLESS the input indicating that the operator 212 witnessed the violation is received; (e) if the input is received, saving and printing the edited image 384 for ticketing.
- the system program 358 further permits the operator 212 to trigger the video capture device 302 at will, thus enabling him to record the scene at an accident within his field of view 384, or to capture images 310 of violators of the traffic ordinances which do not involve exceeding the speed limit (e.g., utilizing a HOV lane improperly, or carrying cargo which is improperly fastened or flagged, driving without headlights on between dusk and dawn, etc.).
- the speed limit e.g., utilizing a HOV lane improperly, or carrying cargo which is improperly fastened or flagged, driving without headlights on between dusk and dawn, etc.
- This second embodiment encompasses all the advantages of the preferred and first alternate embodiment of the present invention.
- this embodiment like the first alternate embodiment, is more complex than the preferred embodiment, and generally does not permit the capturing of images having a resolution as high as that of the first alternate embodiment.
- a further advantage of this embodiment as compared to the first alternate embodiment is that this embodiment permits the capture of high resolution images directly from the video image, thus eliminating the need for a separate still camera.
- identifying indicia is placed on a visible portion of an automobile, such indicia including a conventional license plate, inspection sticker or registration sticker. If necessary, a specially designed license plate, inspection or registration sticker painted with infrared reflective material, or having sufficiently large letters for the enforcement unit to identify, may be used. This enhances the clarity of the image captured, and enables the use of lower resolution video cameras, or zoom lenses having lower magnification capabilities.
- the high resolution, digital video camera includes an infrared illuminator which provides powerful infrared lighting that is invisible to the human eye, yet visible to the video camera, thus enabling the capturing of infrared images of a moving vehicle at night or day without startling or disturbing the driver.
- the illuminator is mounted to the housing, and includes a built-in photocell which automatically turns the illuminator on at night and off at dawn. Built-in blowers are also provided to keep the illuminator cool.
- a suitable illuminator, in wide-angle and narrow angle versions is, part no. HAS-7698A, and HAS-7698B, respectively, available from Home Automation Systems (URL: http://www.techmall.com/smarthome/7690.html).
- the still camera has an infrared filter.
- the communications path described in the embodiments above may be comprised of any of a number of different paths, including UHF/VHF, microwave, cable, network line, telephone line, optical fiber, cellular wireless, line-of -sight wireless, satellite, a laser link, or powerlines.
- a suitable wireless video communications system is the "CC2001” available from Command Corporation of East Granby, Connecticut.
- the "CC2001-1" a one watt system, transmits and receives an FM video signal having a maximum line-of-sight range of 10 miles. This permits a 20 mile enforcement diameter, centered on the location of the command station, in which enforcement units 20 may be positioned and yet still enable communications with the command station.
- a repeater may also be employed to maximize the range of communication. This would allow a single command station to service an area which would be sufficient for cities ranging in size from the smallest to the largest in the world.
- Another suitable wireless video communications system includes a network comprised of 2.4 Gigahertz microwave band network transmitters, capable of transmitting video signals, line of sight, a distance of two to three miles. For applications which require greater range, 8 Gigahertz network transmitters, matched to corresponding receivers.
- 2.4 Gigahertz microwave band network transmitters capable of transmitting video signals, line of sight, a distance of two to three miles.
- 8 Gigahertz network transmitters matched to corresponding receivers.
- Detailed specifications for this network system, and generally with respect to other electronic components described in this disclosure, as such may be required, are available from Blackbox Corporation of Lawrence, Pennsylvania.
- closed circuit video images may be transmitted using the "MICROBAND” system, available from Microband Corporation of New York City, New York.
- the "MICROBAND” system has a sixteen channel capacity, permitting a single operator at the command station to monitor at least 4 enforcement units 20 simultaneously (with the aid of a split screen and a large monitor or multiple monitors).
- Radio signals carrying the video signals are transmitted over short distances between small cells, hubs and routers, available from SynOptics Communications, Inc. and Cisco Systems, Inc. Because a high frequency results in a small antenna and a light system and such characteristics are important factors for mobile products such as the enforcement unit, a high frequency is preferred.
- CDMA Code Division Multiple Access
- Qualcomm's CDMA technology transmits a wide (1.25 megahertz of the cellular spectrum) and weak radio signal which can handle voice, data and video, all at the same time, between minicells mounted on poles, in alleys, and elevator shafts.
- TDMA time division multiple access
- each cell requires very little power (approximately two milliwatts, compared with 600 milliwatts and higher for most other cellular systems). The lower the power consumption, the smaller the cell, and the quieter it becomes. It is thus less likely to interfere with a neighboring cell, and is has the characteristics which favor use in specialized applications, such as in a dedicated network of enforcement units 20 spread throughout a city.
- a new minicell known as the Steinbrecher System, uses a high dynamic range digital radio to down-convert and digitize the entire cellular band to a digital bit stream, including TDMA, CDMA, analog cellular, video, voice or data, in any combination.
- the DSPs then sort out the TDMA and CDMA signals from the analog signals and reduce each to digital voice.
- the minicell replaces a rigid structure of giant analog mainframes with a system of wireless local area networks.
- closed-circuit communications cable e.g., a computer networking cable
- simple equipment can be used.
- enforcement units 20 and decoy units 22 are interchanged according to a schedule which is unpredictable to an ordinary driver.
- the change-outs may be made for maintenance purposes or according to a substantially random schedule.
- the inability of a driver to distinguish an enforcement unit 20 from a decoy unit 22, or to learn the location of enforcement units 22 creates a substantial risk of being ticketed if the driver exceeds the speed limit. This helps control the driver's driving habits, having the net result of increasing adherence to the speed limits.
- the network of enforcement units cooperate together to determine the driver's speed so that he may be ticketed.
- a split screen and a large monitor, or multiple monitors are used, thus enabling the monitoring of two or more locations concurrently.
- the comparator trigger send a signal to the "SNAPPY" program to capture the image, a boarder around the particular image flashes, the operator merely touches the frame and the image is saved and printed.
- the boarder surrounding the frame, or a dot in a corner of the frame changes colors in a random fashion every 5 seconds. The operator is asked to identify the color of the last frame. If the identification is correct, and the response is registered within 10 seconds, only then is the image saved and printed. This ensures that the operator actually witnessed the violation, and that the split screen of four different images was not too distracting.
- this embodiment enhancing the operation of all embodiments described in this specification, a specially designed license plate, inspection or registration sticker painted with infrared reflective material, or having sufficiently large letters for the enforcement unit to identify, may be used. This enhances the clarity of the image captured, and enables the use of lower resolution video cameras, or zoom lenses having lower magnification capabilities.
- the traffic law enforcement system 18 includes a containment housing 100' which securely affixes to a highway structure 40 via fasteners 102' at a predetermined location along a traffic flow route.
- the containment housing 100' includes a body porion 101', and a lid 103', which is hinged to the body portion.
- An enforcement unit 20' includes a housing 206' which releasably engages each containment housing 100' by means of a releasable engagement support 34' and receiver 36'.
- the housing 206' includes a cylindrical enclosure 105' having a transparent portal 154' and a handle 162' attached to a top portion of the housing to aid in removing or releasably installing the enforcement unit 20' in the containment housing.
- the containment housing 100' functions as the receiving interface 24 of the preferred embodiment.
- the containment housing 100' unlike the receiving interface 24 of the preferred embodiment, effectively conceals the presence or non-presence of the enforcement unit 20', thus enabling the containment housing itself to become a decoy unit 22 when the enforcement unit is removed or is not otherwise enabled.
- the housing 206' of the enforcement unit 20' houses the internal components of the enforcement unit such as the frame 206, the speed detection system and the camera or cameras.
- the enforcement unit 20' is an opaque housing which conceals from view its interior when it is releasably engaged with the containment housing 100', thus preventing a third-party observer, during a change-out from an enforcement unit to a decoy unit 22 and vice versa, from being able to distinguish whether a decoy unit 22 or an enforcement unit is being received within the containment housing.
- An alternative embodiment of the present invention utilizes pressure sensors embedded in the road surface which sense when the wheels of a vehicle pass over them. The signal is sent to a CPU which compares the distance between wheels with the prior reading while it records the time between these signals as well. These inputs are used to calculate the speed of the vehicle. At an interval between these two readings, a camera or video recording device records an image of the vehicle.
- a releasable engagement device or key (not shown) which includes a rod with a first interface on its end.
- the first interface is releasably engageable with a second interface on a containment housing such that decoy units 22 and enforcement units 20 may be unlocked, removed or installed and locked thereby.
- Handles 162 and 162' attach to the housing to aid in the installation or removal process.
- An alternate embodiment of the present invention utilizes sensors which record when two laser beams are broken by an object passing through them in order to calculate the speed of the object passing through the beams.
- the laser beams are mounted at the same elevation and at different, predetermined intervals along the path of the objects whose speed is to be measured.
- the containment housing is fabricated from "LEXAN” available through DuPont Engineering Plastics, Inc. This will help protect the contents of the housing from the random acts of vandals.
- the flashing lighting attached to the containment housing is selectively activated from a remote location via at least one receiver mounted in the flashing lighting, the receiver being responsive to electromagnetic signals from a remote sending unit.
- the flashing lighting of both the decoy units 22 and the enforcement units 20 is activated and deactivated in a substantially random fashion.
- the decoy units and enforcement units are painted in the colors of the cognizant enforcement authorities, so as to make them more visible to the driving public. It is further suggested that these units be mounted adjacent large, highly visible speed limit signs, so as to remind the public of the acceptable local speed limit prior to their coming into the operational range of an enforcement unit.
- the emitter 31 in the decoy unit 22 emits a dummy radar or laser signal which further disguises the unit, making it indistinguishable from an enforcement unit.
- the decoy units are enforcement units which emit a dummy radar or laser signal.
- the operator at the command center chooses which enforcement units to monitor, switching the dummy signal "on” in all units which he is not monitoring.
- the enforcement units 20 or 20' which are not turned “on”, function in a manner similar to decoy units in that they prevent a driver from distinguishing them from an enforcement unit which is being monitored.
- the speed of the violator and other identifying information need not be embedded in the image or photograph taken of a violator; rather, they may be transmitted to the command station separately or in a form which may be appended or otherwise associated with the photograph, such that the photograph, the speed information and the identifying information do not overlap, but are serially stored for subsequent printing.
- the image and speed information may be transmitted to the command station, and printed out immediately. The operator then initials a printout of the image, identifying himself and verifying that he did witness the violation.
- a network computer at the command station may link to a database of vehicle registration numbers, and search the number identified on the vehicle.
- results of the search can also be appended to the photograph and file.
- This alternate embodiment which utilizes a method, the steps of which are described below and in Fig. 11, simplifies the system by eliminating the need for more complex electronic components, such as a title maker or video mixer, thus improving reliability and reducing costs as well.
- the simplified method 400 involves the steps which follow: (1) in step 402, monitoring and measuring vehicle speed; (2) in step 404, when the speed of a vehicle exceeds the local speed limit by a predetermined amount, triggering a device which captures an image of a violator in sufficient resolution to enable identification of the vehicle in which the violator drove; (3) in step 406, contacting a human monitor and prompting the monitor for information, such as (a) whether the monitor would like to store the image for subsequent ticketing; (b) identifying information about the human monitor and the violation, such as the human monitor's name, the time and location at which the violation took place, the local speed limit, and the vehicle speed; and (c) whether the human monitor witnessed the violation (optionally, asking the human monitor to identify a number, color flag or other symbolic device which appeared in view of the human monitor during a short time interval which includes the point in time in which the image was taken); (4) in step 408, associating the speed of the vehicle, the local speed limit, and selected information received from the above prompting, with the image; and
- the image may be saved in a database which has a record structure such as that which follows: field names: description:
- Speed location of enforcement unit: digital image: This option avoids the need to edit the image, thus preempting an argument by the violator's defense counsel that the image has been tampered with, should the violator challenge the citation in court.
- a further simplification of the present invention is possible by substituting a conventional film- based camera for the high resolution digital camera. Although making this substitution would require that the film be manually retrieved at each enforcement unit, the amount of electronics required would be reduced.
- a method which ensures that drivers of vehicles 130 are less likely to be able to defeat the system of the invention involves the following steps.
- a first step 500 using optical character recognition equipment and techniques known in the art, enforcement units 20 routinely read license plates of passing vehicles 130. The location, time, and a license plate number of each vehicle 130 is transmitted to the command station 220 or 221 and stored in ram memory for a limited period of time.
- a subroutine continuously compares the license plate numbers received in memory. When the subroutine reads the same license plate number, the enforcement unit captures an image of the vehicle 130, and the additional data is accessed.
- the subroutine uses the time difference and the minimum paved distance between the enforcement units (information which the subroutine accesses from cartographic information which is stored in computer storage on a PC at the command station 220 or 221) to calculate an average speed.
- the command station 220 or 221 immediately sends a signal to the enforcement unit 20 which sent the most recent signal, instructing the PC in the enforcement unit to transmit the captured image of the vehicle 130 for subsequent ticketing.
- the measuring of the average discourages acceleration between enforcement units 20, and then slowing down when the driver believes he is within their enforcement range.
- a decoy unit 22 may be an enforcement unit 20 that an operator 212 at the command station 220 or 221 has not chosen to activate, yet which is still acting as a decoy unit in the sense that drivers are not able to ascertain whether such is capable of enforcing the traffic ordinances. Accordingly, it is appropriate that the appended claims be construed broadly and in a manner consistent with the scope of the invention.
- the invention is applicable industrially as a means of reducing the speed of drivers to safe limits while enabling more effective and safer enforcement of the traffic ordinances (by requiring less police interaction and the dedication of fewer police resources, such as police cars and related enforcement equipment).
- Such a system will play an important role in permitting municipalities to dedicate police resources to the enforcement of more serious criminal laws, or, alternately, to reduce the municipalities' traffic law enforcement costs.
Abstract
Description
Claims
Applications Claiming Priority (3)
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US2982996P | 1996-10-28 | 1996-10-28 | |
US29829P | 1996-10-28 | ||
PCT/US1997/018871 WO1998019284A2 (en) | 1996-10-28 | 1997-10-28 | Traffic law enforcement system having decoy units |
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EP1070310A2 true EP1070310A2 (en) | 2001-01-24 |
EP1070310A4 EP1070310A4 (en) | 2001-01-24 |
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EP97948113A Withdrawn EP1070310A4 (en) | 1996-10-28 | 1997-10-28 | Traffic law enforcement system having decoy units |
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AU (1) | AU5424698A (en) |
CA (1) | CA2305390A1 (en) |
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JP2000339589A (en) * | 1999-05-25 | 2000-12-08 | Fujitsu Ltd | Traffic safety auxiliary system for vehicle and recording medium |
IT1310318B1 (en) * | 1999-11-09 | 2002-02-11 | C R A F T S R L | VEHICLE TRAFFIC SURVEILLANCE AND CONTROL SYSTEM ON ROADS AND HIGHWAYS |
IT1318273B1 (en) * | 2000-07-28 | 2003-07-28 | Sai Servizi Aerei Ind S P A | TRAFFIC CONTROL AND MANAGEMENT SYSTEM INCLUDING INFRARED SENSORS |
US7986339B2 (en) * | 2003-06-12 | 2011-07-26 | Redflex Traffic Systems Pty Ltd | Automated traffic violation monitoring and reporting system with combined video and still-image data |
ITTO20060214A1 (en) * | 2006-03-22 | 2007-09-23 | Kria S R L | VEHICLE DETECTION SYSTEM |
DE102006060577B3 (en) * | 2006-12-19 | 2008-04-10 | Maik Eisold | Stationary device for photographic monitoring of speeding violations in vehicle traffic, has actuator, which operates by remote control or sensor arrangement to swivel housing for speed monitoring relative to direction of traffic |
DE202010009315U1 (en) | 2010-06-21 | 2010-10-14 | Smh Mensch Gmbh | Device for stationary systems for speed monitoring |
DE202011107833U1 (en) * | 2011-11-14 | 2013-02-18 | Robert Seuffer Gmbh & Co. Kg | Traffic control device |
WO2019086464A1 (en) * | 2017-11-03 | 2019-05-09 | Kistler Holding Ag | Wireless camera |
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US3685012A (en) * | 1970-04-16 | 1972-08-15 | Sperry Rand Corp | Apparatus for determining data associated with objects |
US3690233A (en) * | 1970-07-29 | 1972-09-12 | Ltv Aerospace Corp | Photographing means |
US4847772A (en) * | 1987-02-17 | 1989-07-11 | Regents Of The University Of Minnesota | Vehicle detection through image processing for traffic surveillance and control |
DE3712314A1 (en) * | 1987-04-11 | 1988-10-20 | Robot Foto Electr Kg | TRAFFIC MONITORING DEVICE |
US4774571A (en) * | 1987-05-20 | 1988-09-27 | Fariborz Mehdipour | Computerized ticket dispenser system |
DE3727503A1 (en) * | 1987-08-18 | 1989-03-02 | Robot Foto Electr Kg | STATIONARY DEVICE FOR MONITORING TRAFFIC |
DE3727562C2 (en) * | 1987-08-19 | 1993-12-09 | Robot Foto Electr Kg | Traffic monitoring device |
IT1221607B (en) * | 1987-08-25 | 1990-07-12 | Fiorello Sodi | SYSTEM FOR THE DETECTION AND REGISTRATION OF INFRINGEMENTS TO THE RULES OF THE ROAD DISCIPLINE, WITH THE USE OF LASER |
GB8826624D0 (en) * | 1988-11-14 | 1988-12-21 | Martell D K | Traffic congestion monitoring system |
JP2712844B2 (en) * | 1990-04-27 | 1998-02-16 | 株式会社日立製作所 | Traffic flow measurement device and traffic flow measurement control device |
US5590217A (en) * | 1991-04-08 | 1996-12-31 | Matsushita Electric Industrial Co., Ltd. | Vehicle activity measuring apparatus |
US5515042A (en) * | 1993-08-23 | 1996-05-07 | Nelson; Lorry | Traffic enforcement device |
-
1997
- 1997-10-28 CA CA002305390A patent/CA2305390A1/en not_active Abandoned
- 1997-10-28 WO PCT/US1997/018871 patent/WO1998019284A2/en not_active Application Discontinuation
- 1997-10-28 AU AU54246/98A patent/AU5424698A/en not_active Abandoned
- 1997-10-28 EP EP97948113A patent/EP1070310A4/en not_active Withdrawn
Non-Patent Citations (2)
Title |
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No further relevant documents disclosed * |
See also references of WO9819284A2 * |
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CA2305390A1 (en) | 1998-05-07 |
EP1070310A4 (en) | 2001-01-24 |
WO1998019284A3 (en) | 1998-07-09 |
WO1998019284A2 (en) | 1998-05-07 |
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