apparatus, system and method for detecting the presence and controlling the operation of a vehicle&#

专利摘要:
  APPLIANCE, SYSTEM AND METHOD TO DETECT THE PRESENCE AND CONTROL THE OPERATION OF MOBILE DEVICES WITHIN A VEHICLE.The present invention relates to an apparatus, a system and a method for determining the presence of a mobile device located in a predetermined detection zone within a vehicle. A detection module receives a communication signal, determines that the communication signal was transmitted by a mobile device located within the predetermined detection zone within a vehicle, and a control module transmits a control signal to the mobile device located within the predetermined detection zone. The system additionally includes the monitoring logic to monitor a vehicle functional system by activating the transmission of the control signal by the control module when the monitored functional system is activated and the detection module determines that the communication signal was transmitted by the mobile device located within the predetermined detection zone.
公开号:BR112013018062A2
申请号:R112013018062-5
申请日:2012-01-13
公开日:2020-10-27
发明作者:Marwan Hannon
申请人:Marwan Hannon；
IPC主号:

专利说明:

Invention Patent Descriptive Report for "APPLIANCE,
SYSTEM AND METHOD FOR DETECTING THE PRESENCE AND CONTROLING THE OPERATION OF MOBILE DEVICES WITHIN A VEHICLE ". Background Mobile devices such as wireless devices, including, for example, cell phones, smart phones, laptop computers, notebook computers, tablet devices (eg AppleO iPad) are abundant in modern society. The use of such mobile devices while operating a vehicle, however, can be dangerous. The problem is exacerbated by inexperienced operators of the vehicle, such as young people who have just learned to drive. The rates of accidents with vehicles where mobile devices are involved are growing, especially with teenagers. Typing text messages while operating a vehicle in motion ' it can be dangerous and has been associated with causing accidents. More generally: the operation of any keyboard while operating a vehicle circle can be dangerous. Thus, the widespread adoption of mobile devices and the common use of the devices while driving is raising concerns about drivers' distraction. A driver speaking or writing text messages on a mobile phone can become mentally distracted from driving and lose control of the vehicle he or she is driving. Thus, it is not uncommon to see an individual involved in an accident who was talking or writing text messages on a mobile device instead of paying attention to the road. Studies now suggest that individuals talking on mobile phones while driving a car may be just as impaired as someone who is intoxicated. Not only is the driver mentally distracted, but the driver's eyes are distracted to dial, or looking green who is the incoming call. It would be highly desirable to detect the presence of a mobile device such as a wireless device within a vehicle and to control or disable the operation of the mobile device.
. Summary In one embodiment, a method for determining the presence of a mobile device located in a predetermined detection zone within a vehicle is provided. A detection module receives a communication signal. The detection module determines that the communication signal was transmitted by a mobile device located within a predetermined detection zone within a vehicle. A control module transmits a control signal to the located mobile device — within the predetermined detection zone.
FIGURES FIGURE 1 illustrates a vehicle that includes a cabin to accommodate an individual in a driver's seat.
: FIGURE 2 illustrates a modality of a mobile device detection and control system.
"FIGURE 3 illustrates a modality of an energy sensor circuit to detect the energy radiated by the electromagnetic signal transmitted by the mobile device.
FIGURE 4 illustrates an embodiment of an energy sensing circuit comprising a tuning circuit with a scanner in series with the antenna.
FIGURE 5 illustrates a schematic diagram of a multi-band detector to monitor transmission for satellite activity from the mobile device.
FIGURE 6 illustrates the internal portion of the vehicle comprising a modality of the mobile device detection and control system located inside the vehicle panel.
FIGURE 7 illustrates a modality of a logic diagram to determine the presence of a mobile device located in a predetermined detection zone within a vehicle.
DESCRIPTION The present description describes modalities of an apparatus,
system, and method for detecting the presence of such a mobile device. a wireless device and control or disable the operation of the mobile device when it is detected. In particular, the present description addresses modalities of an apparatus, system, and method for detecting the presence of a mobile device such as a wireless device at a predetermined location within a vehicle and disabling some or all of the functions of the mobile device when it is detected in a predetermined location. More particularly, the present description is aimed at automatically preventing a person in the driver's seat of a vehicle from writing text messages and from doing other excessively dangerous activities with the mobile device.
It should be understood that this description is not limited to the particular aspects or modalities described, as they may vary. It should also be understood that the terminology used here is intended only to describe particular aspects or modalities, and is not intended to be limiting, since the scope of the apparatus, system, and method for detecting the presence of a mobile device within a vehicle and control the operation of the mobile device when it is detected is defined only in the appended claims.
In one embodiment, the present description provides an apparatus, system and method for detecting and restricting the use of mobile devices within a vehicle, whether the vehicle is moving or stationary. Mobile devices, such as wireless devices, may include without limitation, for example, cell phones, smart phones, laptop computers, notebook computers, tablet-type devices (for example, i-Pad by Apple6), NetbookG, among others mobile wireless devices that a user can interact with while located in a vehicle. In one embodiment, the presence of a mobile device in the driver's side of the vehicle is detected by at least one sensor located inside the vehicle. When the presence of the mobile device is detected, the operation of the mobile device is controlled, disabled, or modified with respect to the person located in the area on the driver's side of the vehicle but not with re-
: lation to other people located in other areas of the vehicle.
FIGURE 1 illustrates a vehicle 100 that includes a cabin 104 to accommodate an individual in a driver's seat 106. It will be noted in accordance with the present description that the term vehicle is used broadly and means that it includes any type transport vehicle. For example, vehicle 100 can be any type of automobile, truck, sport utility vehicle, aircraft, vessel, spaceship, or any other means of transport, or combinations thereof, where communications by the driver using a mobile device must be detected and controlled. - ladas. Arranged in or inside panel 108 of vehicle 100 is a mobile device detection and control system 102. In one embodiment, mobile device detection and control system 102 is configured to detect the presence of a mobile device located in the driver seat 106 of vehicle 100 and control the operation of the mobile device ”whether by preventing the mobile device, preventing certain functions or aspects of the mobile device, or redirecting the operation of the mobile device to an alternative system operated without hands . In other embodiments, at least some elements or components of the mobile device detection and control system 102 can be located in other areas of the vehicle 100.
It may be desirable to arrange the detection elements and elements to prevent the mobile device detection and control system 102 as close to the driver as possible. For example, sensors and steering antennas of the mobile device detection and control system 102 can be located in close proximity to the driver's seat 106. This configuration provides the most accurate detection of the presence of the mobile device on the side of the driver's seat. driver 106 of vehicle 100 and avoids interference with other mobile devices or other people located inside vehicle 100 to allow people in the passenger seats to use the mobile device while the driver is unable to do so. Other elements or components such as control logic can be located
| in other locations of vehicle 100 away from the engine seat
. torista 106. In one embodiment, the mobile device detection and control system 102 is configured to detect signal transmissions from mobile devices located in or near a detection zone.
According to the described modalities, the detection zone is defined as a zone substantially on or in proximity to the driver seat side 106 of the vehicle 100. In other embodiments, however, the detection zone can be any predefined zone within vehicle 100 without limitation.
In one aspect, the detection portion of the mobile device detection and control system 102 can be tuned to detect signal transmissions in frequency bands used by conventional mobile phones operating on ordinary cell channels.
Once the signals are detected, the mobile device detection and control system 102 wirelessly controls the operation of the mobile device in ". One or more ways.
For example, in one embodiment, the mobile device detection and control system 102 transmits a control signal to disable the operation of the mobile device by preventing signals that interfere with the communication mechanism of the mobile device.
Although impediment signals are transmitted, the mobile device or other communication device within the detection zone is rendered either inoperable or operable only in a limited capacity state.
The obstruction signals forcibly interfere with the communication mechanism of the mobile device by broadcasting noise or other signals on one or more channels used by the mobile device.
In other embodiments, an impediment signal can be interpreted by the mobile device to disable one or more functions of the mobile device.
In said mode, the impediment signal can be communicated to the mobile device through a secondary channel, such as a wireless connection via Bluetooth or any other connection that is secondary to the main cellular communication channel.
In some modalities, the impediment module can communicate on the main communication channel of the mobile device only
or in addition to one or more secondary channels.
. Accordingly, the mobile device detection and control system 102 can either completely block the ability to receive or send the call on a mobile device, or sufficiently interfere with the mobile device signal to make the use of the mobile device undesirable. For example, if the impediment signal simply interrupts a sufficient portion of the conversation, the user will simply either postpone the conversation or park so that the conversation can continue without interruption. In another embodiment, the mobile device detection and control system 102 can disable the operation of certain components or functions of the mobile device. For example, the keyboard portion of the mobile device can be prevented to prevent the user from using the mobile device's text message function. In another embodiment, the mobile device detection and control system 102 can direct the operation of the mobile device towards hands-free operation. These and other modalities are discussed in more detail below.
In one embodiment, the mobile device detection and control system 102 initiates the detection process by transmitting probe signals to detect the presence of a mobile device within a detection zone. Once the polling signals are transmitted, the detection and control system 102 waits for an echo signal reflected by the mobile device or a response signal transmitted by the mobile device. If the detection and control system 102 detects the echo signal or a transmission by the mobile device, the detection and control system 102 transmits a control signal to control the operation of the mobile device. For example, in one embodiment, the detection and control system 102 transmits a control signal to disable the operation of the mobile device by means of impedance signals that interfere with the communication mechanism of the mobile device. In another embodiment, the detection and control system 102 can forward communications to a system for hands-free use, such as a Bluetooth communication system.
FIGURE 2 illustrates a modality of a mobile device detection and control system 102. In one embodiment, the mobile device detection and control system 102 is configured to detect the presence of a mobile device 200 located in or on proximity to the driver seat area 106 of the vehicle 100. Once the mobile device 200 is detected, the mobile device detection and control system 102 is configured to control the operation of the mobile device 200. In one embodiment, the system detection and control device 102 comprises a detector module 202 and a control module 204 coupled to detector module 202. The detector module 202 comprises a multi-band antenna 208 for receiving signal transmissions from the mobile device 200 and the control module 204 comprises an antenna 210 for transmitting control signal to mobile device 200. In several embodiments, detector module 202 and control module 204 can share an antenna when those components are located in close proximity to each other.
In various modalities, the mobile device 200 can be implemented as a portable handheld device, computer, mobile phone, sometimes referred to as a smart phone, personal computer-tablet type (PC), laptop-type computer , or any combination thereof. Examples of smart phones include, for example, PalmO products such as Palm & O TreoO smart phones (now Hewlett Packard or HP), Blackberry & smart phones, AppleO iPhoneO, Motorola DroidO, and the like. Tablet-like devices include the Apple & iPad & tablet-type computer and more generally a class of lightweight notebook computers known as Netbooks. In some modalities, the mobile device 200 can be understood, or be implemented as, any type of wireless device, mobile station, or portable computer device with a self-contained power source (for example, battery) such as a laptop computer, ultra-laptop computer, personal digital assistant (PDA) with communications capabilities, cell phone, cell phone / PDA combination, mobile unit, subscriber station, user terminal, computer portable, with-. handheld computer, palmtop computer, dressable computer, media player, pager, messaging device, data communication device, and so on.
In one embodiment, detector module 202 is configured to detect the presence of the mobile device 200 located within a detection zone 220 defined as a three-dimensional zone within or in proximity to the driver's seat 106. Methods of detecting the presence of the mobile device 200 may vary based on wireless communication standards used by the mobile device 200. Examples of wireless communication standards that can be used in the United States, for example, may include Multiple Code Division systems Access (CDMA), Global System for Mobile Communications (GSM) systems, North American Digital Cellular (NADC) systems, Time Division Multiple Access (TDMA) systems, Extended-TDMA (E-TDMA) systems, systems Estreitaband Advanced Mobile Phone Service (NAMPS), 3G systems such as Wide-band CDMA (WCDMA), 4G systems, CDMA-2000, Universal Mobile Telephone System (UMTS) systems, Integrated Digital Enhanced Network (iDE N) (a variant of TOMA / GSM) and so on. The aforementioned wireless communication standards are widely familiar to those skilled in the art. The frequency and signal strength of radio frequency (RF) signals transmitted by the mobile device 200 depends on the type of network and the communication pattern. Detector module 202 detects the RF signal, or simply radiation from electromagnetic energy, transmitted by the mobile device 200, speaking generally. Therefore, in one embodiment, detector module 202 can be configured to intercept specific cell frequencies or cell frequency ranges or can be configured to read all available cell frequencies or cell frequency ranges and intercept the signal RF emitted by the mobile device 200.
In one embodiment, the detector module 202 may comprise a sensor module 216 coupled to the multi-band antenna 208. The
| Sensor module 216 can be tuned to detect energy in a predetermined: signal strength at the electromagnetic signal 206, for example, RF signal, emitted by the mobile device 200 and received by the antenna 208. It will be observed that the signal strength or the power of the energy radiated by the electromagnetic signal 206 emitted by the mobile device 200 will be greater when the mobile device 200 is making an outgoing call or otherwise communicating with the cellular base station (for example, looking for base station or in contact with the base station or cellular). Very little energy in the electromagnetic signal 206 is radiated when the mobile device 200 is turned off or when the mobile device is not communicating with the cellular base station. In the latter case, when the mobile device 200 is turned on, but is not in communication with the cellular base station, the mobile device 200 can possibly be detected only if the detector module 202 comprises extremely sensitive components. More conventional mobile devices "200 radiate energy at a power level ranging from about 0.5 milliwatt (MW) to about several hundred MW. A detector module 202 of suitable sensitivity can be configured to detect signals electromagnetic devices 206 in the mentioned power level range Many radio electronic devices are able to detect low power levels in the electromagnetic signal 206 and this is one reason why overhead lines are very sensitive about electronic equipment that operates at key points flight, while some electronic equipment must be turned off next to explosion points, and because some cell phones must be turned off around some types of hospital equipment.
It is well known that a mobile device 200, such as, for example, a cell phone using the GSM standard, generates detectable radio interference. It is well known to GSM cell phone users that if the cell phone is used in the vicinity of an electronic device (such as, for example, a radio receiver, stereo system, TV, a wired / landline phone or even another GSM cell phone), radio transmissions from the GSM cell phone may be inadvertently "captured"
connected by the electronic device and a signal proportional to the envelope of the radio transmission can be produced within the electronic device.
In fact, this typically unwanted signal can even disrupt the operation of the electronic device.
For example, it is particularly well known that GSM cell phones have a potential for harm to users of cardiac pacemakers, as the GSM signal can impair proper operation of the pacemaker if the phone is too close to the chest. user.
In one embodiment, the sensor module 216 is configured to exploit the detectable radio interference of the electromagnetic signal 206 generated by the mobile device 200 when it is in communication with the cellular base station.
When the sensor module 216 of the detector module 202 detects the electromagnetic signal 206, it assumes the presence of a mobile device 200 located within the detection zone 220, that is, in or near the driver's seat 106, and communicates a signal 212 to: control module 204. Arranged in communication with control module 204 is an impedance module 218. In one mode, when control module 204 receives signal 212 from the detection module - tion, the hinder module 218 transmits an hinder signal 214 via antenna210 that is detectable only by the mobile device 200 when located in the detection zone 220. In several modalities, the hinder electromagnetic signal 214 can be a signal that disables the operation of the mobile device 200, you can disable certain functionality of the mobile device 200, or you can redirect the operation of the mobile device 200 to hands-free operation.
Control module 204 can be arranged in communication with a vehicle 100 system, such as ignition system 224, gearbox 226, or a variety of sensors 228. Logic control module 204 then monitors the function of a vehicle 100 system in addition to detecting the presence of the device —mobile200. Therefore, the impedance module 218 would be activated only when the monitored function of vehicle 100 is activated.
For example, when the sensor module 216 detects the presence of a mobile device
200 in detection zone 220, hinder module 218 would be activated - only when vehicle 100 is started, when vehicle 100 is moved out of the parking lot or otherwise set in motion, or when one or more sensors detect the operation of vehicle 100. In one embodiment, the sensor module 216 may comprise an energy collector to collect energy in the electromagnetic signal 206 transmitted by the mobile device 200. A energy collector receives the radiated energy in the antenna 208 and converts the energy into a voltage potential to energize detector module 202 and communicate signal 212 to control module 204. In other embodiments, an energy collector can be separated from sensor module 216 and the voltage potential produced by an energy collector can be used to energize the 216 sensor module. In any mode, the voltage potential produced. by an energy collector it is employed to determine the presence of a mobile device 200 in the detection zone 220. Therefore, the sensitivity of the sensor module 216 is adjusted so that an energy collector is sensitive only to the energy levels radiation that typically occur when the mobile device 200 is located within the detection zone 220 and is not sensitive to electromagnetic energy transmitted by mobile devices 222 located outside the detection zone 220. In this way, passengers can freely use their mobile devices 222 outside detection zone 220 without activating detector module 202.
In other embodiments, the detector module 202 can be coupled to the vehicle's electrical system 100 and powered by the vehicle's battery, or it can be powered by a separate battery. In these modalities, the detector module 202 comprises a frequency reading and a power level measurement module that measures the energy of the electromagnetic signal 206 transmitted by the mobile device 200. Therefore, the sensitivity of the detector module 202 can be tuned to trigger detection signal 212 when detector module 202 detects the transmission of power levels corresponding to mobile device 200 being located in detection zone 220 without triggering detection signal 212 for transmission of power levels corresponding to mobile devices 222 located outside detection zone 220. This can be accomplished by strategically locating a multi-band directional antenna 208 so that it is maximally sensitive to transmit the power level radiated by the mobile device 200 located in the detection zone 220 and minimally sensitive to transmit the power level to the mobile devices 222 located outside the detection zone 220. In one embodiment, the control module 204 may comprise a communications impedance module 218 coupled to the antenna
210. The impedance module 218 is arranged in communication with the antenna 210. The antenna 210 emits an impedance signal 214 to thereby interrupt the signals from the mobile device 200 and prevent or otherwise interfere with the ability to making or receiving calls with the mobile device 200. The hinder module 218 and antenna 210 can be powered by the vehicle's electrical system 100, or can be powered by a separate battery. The hinder module 218 can be any device that transmits an hinder signal 214 that causes interference or inoperability of the mobile device 200. In some embodiments, the hinder module 218 may broadcast noise or a specialized signal that is selected for interfere with one or more of the communication frequencies of the mobile device 200. For example, the impedance module 218 can broadcast noise or a repeated interference signal at the control channel frequencies to a cell phone system. In some modalities, the impedance module 218 can transmit over a narrow frequency range, while in other modalities a very wide frequency range can be selected. The precise method for interfering with the mobile device 200 by the hinder module 218 is dependent on the transmit and receive characteristics of the mobile device 200. Those skilled in the art can use any appropriate hinder module 218 for any specific mobile device 200 contemplated device.
According to one aspect, the hinder module 218 can be mounted on the vehicle 100. When activated, the hinder module 218: inhibits the ability to send or receive a mobile phone call with a mobile terminal 200 located in detection zone 220 Depending on the voltage of the impedance module 218 (or the use of a directional antenna), the area in which the mobile device 200 is impeded can be controlled. Thus, for example, the hinder module 218 can be adjusted to effectively prevent phone calls to or from the mobile device 200 by a space of 1-3 feet from the hinder device 218 location, or on a direction that interferes with the driver's ability to receive a phone call, make a phone call, or send a text message, but does not interfere with the ability of other passengers to receive or initiate mobile phone calls or send text messaging.
In one embodiment, antenna 210 can be positioned under the vehicle's dashboard 100 or above on the driver's windshield side. Alternatively, the directional antenna can be arranged in the driver's seat to prevent the driver from making calls or sending text messages. In one embodiment, control module 204 can be used to prevent communications by the vehicle operator 100 when mobile device 200 is detected in detection zone 220 in combination with or with an ignition key, a transmission key, or other mechanism vehicular sensor. In one embodiment, an ignition key can be monitored to make the hinder module 218 broadcast only when a mobile device 200 is detected on the driver seat side 106 of the vehicle 100 and the ignition key is turned on , which would require the operator of vehicle 100 to disconnect vehicle 100 to establish external communications. The hinder module 218 would prevent any further communications until vehicle 100 is shut down. In another embodiment, the hinder module 218 can be activated only when a mobile device 200 is detected in the detection zone 220 and an automatic transmission in the vehicle 100 is moved out of "park" and into a position where the vehicle 100 can move. to move. When said system is activated, the operator of the vehicle 100 must stop the vehicle 100 and either move the transmission to "park" or stop the engine to operate the mobile device 200. In one embodiment, the impedance module 218 can be configured to operate within the confines of the vehicle 100. In some cases, the antenna 210 coupled to the impedance module 218 of the control module 204 can be configured with a predetermined power level and steering attributes to direct the impedance signals 214 mere. in the detection zone 220 so that other occupants of the vehicle 100 can continue to operate other mobile devices 222. In these cases, the obstruction signals 214 can generally be confined within the detection zone 220 of the vehicle 100. In In some embodiments, the hinder signals 214 can be located in other areas within + vehicle 100 so that the operation of a mobile device in that area is disabled, but o other mobile devices outside of that: operational area.
In various modalities, the antenna 210 and the power level of the impedance signal 214 can be configured to send the impedance signal very precisely to the detection zone 220. In a modality, this can be implemented with the directional antenna located inside the vehicle 100 where maximum impediment is sent to the detection zone 220 and minimum impediment is sent outside the impediment zone
220. In said modalities, the detector module 202 can be configured to indiscriminately detect any transmissions from all mobile devices 200, 222 inside the vehicle 100 and the impedance module 218 would only transmit impediment signals to the detection zone 220 to prevent the mobile device 200 within the detection zone 220 without affecting the mobile devices 22 outside the detection zone 220 Such implementation would not care whether or not a mobile device is located within the detection zone 220, thus simplifying the design of detector module 202. In one embodiment, impedance module 218 may allow
remove incoming calls to the mobile device 200 but prohibit making calls with the mobile device 200. When the detector module 202 detects the energy in the electromagnetic signal 206 from an attempt to make a call by the mobile device 200, the signal 212 activation of the hinder signal 214. In said embodiment, the detector module 202 may comprise additional modules to discern the identity of the mobile device 200 and allow the control module 204 to transmit the hinder signal 214 after the identity of the mobile device 200 be confirmed.
In other embodiments, the sensor module 216 can be used to detect and allow or deny any type of operation from the mobile device 200. For example, calls can be received by the mobile device 200, but making calls can be prevented. In another example, some calls, such as emergency calls, may be allowed to be made while other calls are prevented. Any other function of the mobile device 200 that can be detected can be selectively enabled or disabled by the hinder module 218.
In one embodiment, the mobile device 200 can receive the impedance signal 214 and operate in a reduced function mode. For example, the mobile device 200 may be prohibited from initiating a phone call except for emergency calls to 911. In another example, the mobile device 200 may be allowed to receive all calls or calls from a predefined list of people and be prohibited from making calls. Various reduced-function modes can be used and in some modes an adjustment can define the precise operations allowed.
In one embodiment, control module 204 initiates the detection process by transmitting probe signals to detect the presence of a mobile device 200 within a detection zone 220. Once the probe signals are transmitted, detector module 202 waits for an echo signal reflected by the mobile device 200 or a response signal
port transmitted by the mobile device 200. If the detector module 202 detects the echo signal or the transmission by the mobile device 200, the control module 204 transmits a control signal to control the operation of the mobile device 200. For example, in one embodiment, the blocking module 218 transmits a control signal to disable the operation of the mobile device 200 by means of impedance signals 214 that interfere with the communication mechanism of the mobile device 200. In another mode, the Control module 204 can forward communications to a system for hands-free use, such as a Bluetooth communication system.
FIGURE 3 illustrates an embodiment of an energy sensor circuit 300 for detecting the energy radiated by the electromagnetic signal 206 transmitted by the mobile device 200. The illustrated energy sensor circuit 300 is a modality of a sensor module 216 described in connection with FLGURAZ2. The energy sensor circuit 300 also converts the energy in the radiated electromagnetic signal 206 to a voltage potential indicative of the location of the mobile device 200. In the illustrated mode, the energy sensor circuit 300 is not connected to the power source of the vehicle 100 or a separate battery. Instead, the energy sensing circuit 300 is an implementation of an energy collecting circuit that derives its energy only from the energy radiated by the electromagnetic signal 206 transmitted by the mobile device 200. The electromagnetic signal 206 detected by the antenna 208 is filtered by tuning circuit 306 to match the most common frequency bands used by mobile devices. In one embodiment, the tuning circuit 306 may comprise an L inductor and a capacitor C selected to tune the energy sensor circuit 300 to the desired frequency range. Those skilled in the art will note that the tuning circuit can be implemented using digital or analog tuning techniques and, therefore, the mode described in FIGURE 3 is not limiting. The Dx diode is an RF diode and acts to partially rectify the electromagnetic signal 206 received by antenna 208 and tuned by the circuit.
to L-C. The output of the RF diode carries a C capacitor, to a predetermined one. of the potential Vi. Thus, the energy sensing circuit 300 converts the radiated electromagnetic signal 206 to a voltage potential V; g which corresponds to the location of the mobile device 200 within the vehicle 100. With reference now to both FIGURES 2 and 3, when the voltage potential Va through the output capacitor C exceeds a predetermined level, this indicates the presence of a mobile device 200 within the detection zone
220. The voltage potential V; g is compared to a threshold voltage V; by a comparator 306. The threshold voltage V, is predetermined as the voltage level corresponding to the mobile device 200 being located in the detection zone 220. The output of the comparator 306 is provided for detection logic module 304, which can be part of detector module 202. Detection logic module 304 then generates detection signal 212 and communicates detection signal 212 to control module 204. Upon receiving detection signal 212, control module 204 activates the impedance module 218 to interfere with the operation of the mobile device 200. As discussed earlier, in certain embodiments, the impedance module 218 can be activated only if other logic conditions are reached such as the state of the ignition system, the gearbox, or other sensors. Still referring to FIGURES 2 and 3, it may be desirable to determine when to close the impedance module 218. Therefore, in a modality, since the signal Vg is provided for the control module 204, the control module detection logic 304 activates a switch 302 to discharge the output capacitor C ,. At substantially the same time, impedance circuit 218 is switched off. If the mobile device 200 is still activated in the detection zone 220, the electromagnetic signal 208 would be picked up by antenna 208 to charge capacitor C, and generate a voltage potential V; to activate the hinder module 218. This cycle would be repeated until the mobile device 200 is removed from the detection zone 220 so that the radiated electromagnetic signal 208 is too weak to activate the power sensor circuit 300 or the mobile device 200 is deactivated or turned off so that there is little or no radiated electromagnetic signal 208. In the embodiment illustrated in FIGURE 3, tuning circuit 306 can be implemented to have a bandwidth that encompasses the most popular cell phone frequencies. Once the tuning circuit 306 is fixed, it is tuned to a wide frequency range to receive electromagnetic signals 208 from about 0.8 to about 2 GHz, as shown in TABLE 1 below. In other modalities, however, as described in relation to FIGURE 4, the tuning circuit 306 may include a frequency range reader to switch between multiple tuning elements and read the detection zone 220 for multiple frequencies to more precisely tune the power sensor circuit 300 to an appropriate frequency range of the mobile device 200. located in the detection zone 220. FIGURE 4 illustrates a modality of a sensor circuit of U energy 400 comprising a tuning circuit 406 with a scanner 402 in series with the antenna 208. The scanner 402 is controlled by the module of 404 logic and scans multiple frequency ranges. Referring now to FIGURES 2-4, logic module 404 periodically changes tuning elements L1, La, Ln, in tuning circuit 406 to monitor various frequency bands associated with the mobile device 200 located in the detection zone 220. The voltage potential V; g is compared to the threshold voltage V, by comparator 406. The threshold voltage V, is predetermined as the voltage level corresponding to the mobile device 200 being located in the detection zone. detection 220. In other respects, the energy sensor circuit 400 shown in FIGURE 4 operates similarly to the energy sensor circuit 300 shown in FIGURE 3.
FIGURE 5 illustrates a schematic diagram of a multi-band detector 500 to monitor the transmission for the satellite activity of the mobile device 200. In the illustrated embodiment, the multi-band detector 500 provides high-speed data transmission reading. cell phone for satellite frequency bands for CDMA, GSM,
PCS, and WCDMA. A 508 multi-band unidirectional antenna receives * 506 signals from a mobile device located in the detection zone
220. A 510 scanner continuously reads CDMA, GSM, PCS, and WCDMA frequency bands for mobile devices 200 located in the detection zone220 that are in an active or inactive state. A detector module 502 provides a detection signal 512 to the control module 504 to activate an impedance module when a signal 506 is detected, as discussed earlier. The upstream frequencies covered by the multi-band detector 500 shown in FIGURE 5 are listed in TABLE 1 below. CO TABELAIM o Air interface Frequency range (MHz fears North America =: 890-915 GSM-1900 / PCS-1900 1850-1910 European Union / Asia / Australia the E-GSM-900 880-915
1710.2-184.8 WCDMA / UMTS 1920-1980 o The multi-band detector 500 can be implemented using a variety of components to detect radiated energy in the signal 506 received by the multi-band antenna 508 and make RF energy measurements at low levels by the detector module 502 in order to detect the presence of a mobile device 200 in the detection zone 220. The RF power level can be measured directly or can be sampled. Recently, a series of integrated RF energy detectors has become available, intended for wireless network and mobile phone applications. Since these integrated circuits are produced in high volume using integrated circuit technology, they are consistent and economical - often more economical than typical microwave diodes, such as the RF Dx diode shown in FIGS. 3 and 4.
Many of them are specified for operation in the GHz region, - covering several amateur microwave bands, and few operate at 10 GHz and beyond.
In one embodiment, the RF 502 energy detector module can be implemented with an LTC5508 integrated circuit from Technologies classified at up to 7GHz, which is well within the bandwidth required for mobile devices. - BELA 1. This integrated circuit requires the operation of a few milliamps at 3 to 5 volts and would be connected to the vehicle's power supply or to a separate battery.
An LT5534 logarithmic amplifier type detector rated up to 3 GHz with 60 dB of dynamic range can be used to amplify the RF energy signal detected by the LTC5508 integrated circuit. The multi-band detector 500 can be used to measure the RF energy transmitted by the mobile device 200 and also to measure the radiation pattern of the antenna.
The sensitivity of the multi-band detector 500 can be useful for low power level measurements such as an "RF Sniffer" to detect RF leakage from the mobile device 200. The multi-band detector 500 provides rapid response from so that it can be used to detect modulation and to detect noise levels from the multi-bank antenna 506. FIGURE 6 illustrates an internal portion of the vehicle 100 comprising a modality of the detection system and device control —mobile102 located inside panel 108 of vehicle 100. FIGURE 6 illustrates three potential locations within panel 108 where the detection system and mobile device control 102 can be located.
It will be noted that the detection and control system 102 can be located in one or more of the aforementioned locations in or inside panel 108. It would be preferable for the detection and control system 102 to be located inside panel 108 to avoid tampering by of user.
Therefore, the detection and control system 102 is shown in dotted lines to indicate that the detection and control system 102 is located inside panel 108. In another. In this mode, the 203 control module can be configured with a data collection process to record the situation when the detection and control system 102 has been deactivated by the vehicle owner 100 with or without the aid of a mechanical car. The aforementioned violation record and detection feature can be useful in post-accident investigations to determine whether the 102 detection and control system has been disabled and thus invalidating insurance coverage, for example. Referring now to FIGURES 1-6, the mobile device detection and control system 102 comprises a detector module 202 and a control module 204 coupled to detector module 202. Detector module 202 detects the presence of a mobile device 200 within detection zone 220 ("discovery umbrella"). When the detector module 202 detects the presence of a mobile device 200 within the detection zone 220, the control module 204 activates the impedance module 218, which transmits the control signal 214. The control signal 214 interferes with the operation of the mobile device 200 when it is located within the detection zone 220 without interfering with the mobile devices 222 located outside the detection zone 220.
In one embodiment, the mobile device detection and control system 102 can be triggered when the driver enters the vehicle
100. When triggered, the mobile device detection and control system 102 is initialized and goes into detection mode to establish a system without communication ("SemCom system"). Detection mode is a process in which the mobile device detection and control system 102, through one or more sensor (s) and logic detects the presence of all electromagnetic signals 206 such as RF, Wi- Fi, Cellular, and Satellite from mobile device 200. In one embodiment, the detection process is initiated by the mobile device detection and control system 102, which is not dependent on driver interaction to initiate the detection process . Disconnecting the process from the driver, young and old, is advantageous because it avoids confidence in self-policing,
what currently failed to work even with the currently pro- laws. mulgadas. Thus, the activation condition can be the activation of a key such as the ignition key 602 of the vehicle 100 or the deactivation of a "park" sensor 604 of the automatic transmission of the vehicle 100, among other sensors.
Therefore, with the activation of the vehicle 100, the mobile device detection and control system 102 would initiate the detection process via the logic that controls the operation of the detection module 202 and the control module 204. According to the detection process, the logic will instruct the sensor module 216 to start reading or scanning for any types of communication signals 206 emitted by the mobile device 200 within the detection area 220 within the driver side area 106 of the vehicle 100 In one embodiment, the sensor module 216 can be. located inside the 108 console panel and or inside a microphone for a hands-free use set. This setting would hide the 216 sensor module and prevent drivers from tampering with the mobile device detection and control system 102 by blocking the 216 sensor module or preventing the activation of the detection process. In one embodiment, the sensor module 216 can be coupled to ignition 602 to render vehicle 100 inoperable if the sensor module 216 is blocked.
The logic provides a detection process to detect communication signals 206 emitted by the mobile device 200 located within the detection zone 220 to prevent the driver from using the mobile device 200 properly. The detection process will detect and control the driver-side mobile device 200. Logic, however, will not prevent passengers from using their mobile devices 222 outside detection zone 220.
Once the detection process is started, if the mobile device 200 is a smartphone and is detected within the detection zone 220, in one mode, the mobile device detection and control system 102 can automatically connect to the communication system without vehicle hand use 100. If there is no hands-free communication system, the mobile device 200 would be disabled by the. control 214 transmitted by impedance module 218. However, the mobile device detection and control system 102 will always allow emergency calls to 911.
Additionally, once the detection process is started, if the mobile device 200 is a smartphone and is detected within the detection zone 220, in one mode, the mobile device detection and control system 102 is configured to disable the characteristics of writing / receiving text messages from the mobile device 200. In one embodiment, all incoming text messages would be saved as is the case today. In one embodiment, the mobile device detection and control system 102 is configured through logic for reading the text via the Bluetooth / hands-free system as well as responding to the communication system via voice. Bluetooth enabled text / hands-free. In said mode, the impedance module i 216 can communicate with the mobile device 200 through a secondary channel, such as wireless connection via Bluetooth or any other connection that is secondary to the main cellular communication channel. In some modalities, the impedance module 216 can communicate only on the main communication channel of the mobile device 200 or in addition to one or more secondary cellular communication channels.
In addition, once the detection process is initiated, if the mobile device 200 is a smartphone and is detected within the detection zone 220, in one embodiment, the mobile device detection and control system 102 is configured to disable features of incoming and outgoing emails. In one mode, all incoming emails would be saved as is the case today. The mobile device detection and control system 102 is configured through the logic module to read the email via the Bluetooth / hands-free system as well as reply to the email via voice via the Bluetooth / hands-free communication system.
Additionally, once the detection process is started,
if the mobile device 200 is an iPad & or a NetbookO device and is "detected within the detection zone 220, in one embodiment, the mobile device detection and control system 102 is configured to disable the write / receive features and -mails and text messages All incoming emails will be saved as is currently the case The mobile device detection and control system 102 is configured through the logic module to read the email / text via the Bluetooth system / hands-free as well as replying to email / text via voice activated via the Bluetooth communication system / hands-free.
FIGURE 7 illustrates an embodiment of a logic diagram 700 for determining the presence of a mobile device located in a predetermined detection zone within a vehicle. Referring now to FIGURES 1-7, in one embodiment, the detection module 202 receives - 702 a communication signal 206. The detection module 202 determines 704 that the communication signal 206 was transmitted by a mobile device '200 located within a predetermined detection zone 220 within a vehicle 100. The control module 204 transmits 706 a control signal 214 to the mobile device 200 located within the predetermined detection zone 220.
In one embodiment, the detection module 202 transmits a detection signal 212 to the control module 204 when a voltage potential V; g substantially equals a predetermined threshold value V, where the voltage potential of the predetermined threshold value V; ; indicates the presence of the mobile device 200 within the predetermined detection zone220.
In one embodiment, the detection module 202 takes a reading looking for a plurality of frequency bands associated with the mobile device 200. The level of power radiated from the communication signal 206 in the plurality of frequency bands received by the de - detection 202 is monitored by the detection module 202. The detection module 202 transmits a detection signal 212 to the control module 204 when the measured radiated power level substantially equals at least the predetermined value V ;.
. In one embodiment, the detection module 202 captures the energy in the received communication signal 206 and generates a voltage potential that corresponds to the location of the mobile device 200 within the detection zone.
220.
In one embodiment, the control module 204 monitors the functional system of the vehicle 100. The transmission of the control signal 214 is activated when the monitored functional system is activated and the detection module 202 determines that the communication was transmitted by the mobile device 200 located within the predetermined detection zone 220. In one embodiment, the functional system of the vehicle 100 is either an ignition system 224, a transmission system 226, and a sensor
228.
In one embodiment, when the control module 204 receives the detection signal 212, the control module 204 either prevents the mobile device 200, prevents at least one function of the mobile device 200, or redirects the operation of the mobile device 200 to a system alternative operated without hands.
In various embodiments, the mobile device 200 can be configured to provide voice and / or data communications functionality according to different types of wireless network systems or protocols. Examples of suitable wireless network systems that offer data communication services may include the Institute of Electrical and Electronics Engineers (IEEE) 802.xx series of protocols, such as the IEEE 802.1a / b / g / n series of standard protocols and variants (also referred to as "WiFi"), the IEEE 802.16 series of standard protocols and variants (also referred to as "WIMAX"), the IEEE 802.20 series of standard protocols and variants, and so on. In addition, the mobile device 200 can use different types of shorter-band wireless systems, such as a Blue-tooth system that operates according to the Bluetooth Special Interests Group (SIG) series of protocols, including Bluetooth Specification versions v1 .0, v1.1, v1.2, v1.0, v2.0 with Enhanced Data Rate (EDR), as well as one or more Profiles
Bluetooth, and so on. Other examples may include u- systems. using infrared techniques or near field techniques and protocols, such as electromagnetic induction (EMI) techniques. An example of EMI techniques can include passive or active radio frequency identification (RFID) protocols and devices.
The various illustrative functional elements, logic blocks, modules, and circuits described in connection with the modalities described here can be implemented or carried out with a general purpose processor, a Digital Signal Processor (DSP), an Integrated Circuit of Specific Application (ASIC), a Field Programmable Gate Array (FPGA) or other programmable logic device, distinct port or logic transistor, distinct hardware components, or any combination of them designed to perform the functions described here. A general purpose processor can be a microprocessor, but as an alternative, the processor can be any conventional processor, controller, micro-controller, or state machine. The processor can be part of a computer system that also has a user interface port that communicates with the user interface, and that receives commands informed by the user, has at least one memory (for example, hard drive or other comparable storage, and random access memory) that stores electronic information including a program that operates under the control of the processor and communicates via the user interface port, and a video output that outputs it via any type of video output format.
The functions of the various functional elements, logic blocks, modules, and circuit elements described in connection with the modalities described here can be performed using dedicated hardware as well as with hardware capable of running the software in association with the software appropriate. When provided by a processor, functions can be provided by a single dedicated processor, by a single shared processor, or by a plurality of individual processors, some of which can be shared. Additional-
In particular, the explicit use of the term "processor" or "controller" should not be 'constructed to refer exclusively to hardware capable of running the software, and may implicitly include, without limitation, hardware DSP, read-only memory (ROM) to store software, random access memory (RAM), and non-volatile storage. Other hardware, conventional and / or usual, can also be included. Similarly, any keys shown in the figures are only conceptual. Their function can be performed through the operation of a logical program, through dedicated logic, through the interaction of the control program and dedicated logic, or even manually, the particular technique being selectable by the implementation as specifically understood from the context.
The various functional elements, logic blocks, modules and circuit elements described in connection with the modalities described here may comprise a processing unit for executing the software program instructions to provide the compute and control operations. processing for the mobile device detection and control system 102. The processing unit may be responsible for carrying out various data and voice communications operations between the mobile device200 and the hands-free system. Although the processing unit may include a single processor architecture, it can be seen that any suitable processor architecture and / or any suitable number of processors is possible, according to the described modalities. In one embodiment, the processing unit can be implemented using a single integrated processor.
The functions of the various functional elements, logic blocks, modules, and circuit elements described in connection with the modalities described here can be implemented in the general context of instructions executable by computer, such as software, control modules, logic, and / or logic modules executed by the processing unit. In general, software, control modules, logic, and / or logic modules include any software element arranged to perform particular operations.
res. Software, control modules, logic, and / or logic modules can] include routines, programs, objects, components, data structures and the like that perform particular tasks or implement particular summary data types. An implementation of software, control modules, logic, and / or logic and technical modules that can be stored in and / or transmitted through some forms of medium capable of being read by a computer. In this regard, a medium capable of being read by a computer can be any available medium or a usable medium for storing information and accessible by a computing device. Some modalities can also be practiced in distributed computing environments where operations are performed by one or more remote processing devices that are connected through a communications network. In a distributed computing environment, software, control modules, logic, and / or logic modules can be located not only on a local storage medium but also on a remote computer including storage memory devices.
In addition, it should be noted that the modalities described here illustrate examples of implementations, and that functional elements, logic blocks, modules, and circuit elements can be implemented in several other ways that are consistent with the described modalities. . In addition, the operations performed by said functional elements, logic blocks, modules, and circuit elements can be combined and / or separated for a given implementation and can be performed by a greater number or a smaller number of components or modules. As will be apparent to those skilled in the art by reading this description, each of the individual modalities described and illustrated here has distinct components and characteristics that can be readily separated from or combined with the characteristics of any of the others different aspects without departing from the scope of this description. Any method mentioned can be performed in the order of the recited events or in any other order that is logically possible.
It is worth noting that any reference to "a modality" or "modality" means that a particular feature, structure, or characteristic described in connection with the modality is included in at least one modality. The appearance of the phrases "in a modality" or "" in an aspect "in the specification are not necessarily all referring to the same modality.
Unless specifically stated otherwise, it may be noted that terms such as "process," "compute," "calculate," "determine," or the like, refer to the action and / or processes of a computer or computing system, or similar electronic computing device, such as a general purpose processor, DSP, ASIC, FPGA device or other programmable logic device, distinct port or transistor logic, distinct hardware components, or any . combination of them designed to perform the functions described here that manipulate and / or transform the data represented as physical quantities (for example, electronic) within registers and / or memories into other data represented in a similar way as the physical quantities within memories, records or other information storage, transmission or display devices.
It should be noted that some modalities can be described using the expression "coupled" and "connected" together with their derivatives. The terms are not intended to be synonymous with each other. For example, some modalities can be described using the terms "connected" and / or "coupled" to indicate that two or more elements are in direct physical or electrical contact with each other. The term "coupled", however, can also mean that two or more elements are not in direct contact with each other, but still cooperate or interact with each other. With regard to software elements, for example, the term "coupled" can refer to interfaces, message interfaces, application program interface (API), exchange messages, and so on.
It will be noted that those skilled in the art will be able to develop various arrangements which, although not explicitly described
or shown here, incorporate the principles of this description and are included within the scope of the same. In addition, all of the examples and condition language recited here are primarily intended to help the reader understand the principles described in this description and the concepts contributed to promoting the technique, and should be constructed as being without limitation to the said examples and conditions explicitly. cited. Additionally, all the determinations here reciting the principles, aspects, and modalities as well as their specific examples, are intended to encompass not only their structural equivalents but also their functional equivalents. In addition, it is intended that the referenced equivalents include not only the known equivalents but also the equivalents developed in the future, that is, any elements developed or perform the same function, regardless of the structure. The scope is of the present description, therefore, it is not intended to be limited to the exemplary aspects and to the aspects shown and described here. Instead, the scope of the present description is incorporated by the appended claims.
The terms "o," "a," "os," "as," "um," "an" and similar referents used in the context of the present description (especially in the context of the following claims) should be constructed to cover not only the singular, but also the plural, unless otherwise indicated here or clearly stated otherwise by the context. The recitation of ranges and values is intended here merely to serve as a shorthand reference method for each separate value that falls within the range. Unless otherwise indicated here, each individual value is incorporated into the specification as if it were individually mentioned here. All of the methods described here can be performed in any appropriate order unless otherwise indicated here or otherwise clearly stated otherwise by context. The use of any and all examples, or example language (for example, "such as," "in the case," "" by way of example ") provided here is intended to merely clarify the present invention and does not impose any limitation on the scope of the present invention otherwise claimed. No language in the specification should be constructed as indicating any element. not claimed essential to the practice of the present invention.
It is further noted that claims can be traced to exclude any optional elements.
As such, the present determination is intended to serve as a background for the use of said exclusive terminology as solely, only and similar in connection with the recitation of the claimed elements, or the use of a negative limitation.
Groupings of alternative elements or modalities described here should not be construed as limitations.
Each group member can be referred and claimed individually or in any combination with other group members or other elements noted here.
It is anticipated that one or more members of a group may be included in, or deleted from, a group for reasons of convenience and / or patentability. quality.
Although certain features of the modalities have been illustrated as described above, many modifications, substitutions, changes and equivalents will now occur for those skilled in the art.
It should therefore be understood that the attached claims are intended to cover all such modifications and changes as they fall within the scope of the described modalities.

权利要求:
Claims (18)
[1]
1. Method for determining the presence of a mobile device located in a predetermined detection zone within a vehicle, the method comprising the steps of: receiving a communication signal by a detection module; determine by the detection module that the communication signal was transmitted by a mobile device located within a predetermined detection zone inside a vehicle; transmit a control signal to a mobile device located within the predetermined detection zone by a control module; and scanning through the detection module the plurality of frequency bands associated with the mobile device; monitor by the detection module a level of power radiated from the communication signal received by the detection module in each of the plurality of frequency bands; and transmitting a detection signal to the control module by the detection module when the measured radiated power level equals at least a predetermined value.
[2]
A method according to claim 1, comprising the step of transmitting a detection signal to the control module by the detection module when a voltage potential equals a predetermined value, wherein the voltage potential of the predetermined value indicates the presence of the mobile device within the predetermined detection zone.
[3]
3. Method according to claim 1, comprising the steps of: capturing the energy in the received communication signal by the detection module; and generating a voltage potential that corresponds to the location of the mobile device within the detection zone.
[4]
4. Method according to claim 1, comprising the steps of:
monitor a vehicle's functional system via the control module; and activate the transmission of the control signal by the control module when the monitored functional system is activated and the detection module determines that the communication signal was transmitted by the mobile device located within the predetermined detection zone.
[5]
A method according to claim 4, wherein the vehicle's functional system is any one of an ignition system, a transmission system and a sensor.
[6]
6. Method according to claim 1, comprising the step of disturbing the transmission, by the control module, of the mobile device.
[7]
A method according to claim 1, comprising the step of disturbing the transmission, by the control module, of at least one function of the mobile device.
[8]
8. Method, according to claim 1, comprising the step of redirecting, by the control module, the operation of the mobile device to an alternative system operated without hands.
[9]
9. Apparatus for determining the presence of a mobile device located in a predetermined detection zone within a vehicle, the apparatus comprising: a detection module for receiving a communication signal and determining that the communication signal has been transmitted by a mobile device located within a predetermined detection zone within a vehicle; a control module coupled to the detection module, the control module comprising an operational transmission disturbance module for transmitting a control signal to the mobile device located within the predetermined detection zone; and a scanner coupled to the operational detection module to perform a reading looking for a plurality of frequency bands associated with the mobile device; and an energy sensor circuit coupled to the scanner, the energy sensor circuit operational to monitor a level of power radiated from the communication signal received by the detection module in each of the plurality of frequency bands.
[10]
An apparatus according to claim 9, comprising: an energy sensing circuit for detecting the energy radiated by the communication signal and converting the energy radiated by the communication signal to a voltage potential; and a logic module coupled to the operational energy sensor circuit to receive a signal indicative of the location of the mobile device and to transmit a detection signal to the control module when the voltage potential equals a predetermined value, in which the potent - Voltage value of the predetermined value indicates the presence of the mobile device within the predetermined detection zone.
[11]
An apparatus according to claim 9, comprising: an energy collector to collect energy in the received communication signal and to generate a voltage potential that corresponds to the location of the mobile device within the detection zone.
[12]
12. System for determining the presence of a mobile device located in a predetermined detection zone within a vehicle, the device comprising: a detection module for receiving a communication signal and determining that the communication signal has been transmitted by a mobile device located within a predetermined detection zone within a vehicle; a control module coupled to the detection module, the control module comprising an operational transmission disturbance module for transmitting a control signal to the mobile device located within the predetermined detection zone; a scanner coupled to the operational detection module to perform a reading looking for a plurality of frequency bands associated with the mobile device; and a power sensing circuit coupled to the scanner, the operating sensing circuit for monitoring a level of power radiated from the communication signal received by the detection module in each of the plurality of frequency bands; a monitoring logic to monitor a vehicle's functional system by activating the transmission of the control signal by the control module when the monitored functional system is activated and the detection module determines that the communication signal was transmitted by the mobile device located within the predetermined detection zone.
[13]
13. System according to claim 12, in which the vehicle's functional system is any one of an ignition system, a transmission system and a sensor.
[14]
14. The system of claim 12, comprising: an energy sensing circuit for detecting the energy radiated by the communication signal and converting the energy radiated by the communication signal to a voltage potential; and a logic module coupled to the operational energy sensor circuit to receive a signal indicative of the location of the mobile device and to transmit a detection signal to the control module when the voltage potential equals a predetermined value, in which the potent - voltage range of the predetermined value indicates the presence of the mobile device within the predetermined detection zone.
[15]
A system according to claim 12, comprising: an energy collector to collect energy in the received communication signal; and to generate a voltage potential that corresponds to the location of the mobile device within the detection zone.
[16]
16. System according to claim 12, comprising disturbing the transmission, by the control module, on the mobile device.
[17]
17. The system according to claim 12, comprising disturbing the transmission, by the control module, of at least one function of the mobile device.
[18]
18. The system according to claim 12, comprising redirecting the operation of the mobile device to an alternative system operated without hands by the control module.

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法律状态:
2020-11-03| B08F| Application dismissed because of non-payment of annual fees [chapter 8.6 patent gazette]|Free format text: REFERENTE A 8A ANUIDADE. |

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2021-02-23| B08K| Patent lapsed as no evidence of payment of the annual fee has been furnished to inpi [chapter 8.11 patent gazette]|Free format text: EM VIRTUDE DO ARQUIVAMENTO PUBLICADO NA RPI 2600 DE 03-11-2020 E CONSIDERANDO AUSENCIA DE MANIFESTACAO DENTRO DOS PRAZOS LEGAIS, INFORMO QUE CABE SER MANTIDO O ARQUIVAMENTO DO PEDIDO DE PATENTE, CONFORME O DISPOSTO NO ARTIGO 12, DA RESOLUCAO 113/2013. |

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2021-12-07| B350| Update of information on the portal [chapter 15.35 patent gazette]|

优先权:

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申请号 | 申请日 | 专利标题

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US201161433854P| true| 2011-01-18|2011-01-18|

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US61/4233,854|2011-01-18|

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PCT/US2012/021256|WO2012145049A1|2011-01-18|2012-01-13|Apparatus, system, and method for detecting the presence and controlling the operation of mobile devices within a vehicle|

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