Class / Patent application number | Description | Number of patent applications / Date published |
342128000 | With frequency modulation | 43 |
20080198065 | Radar System, In Particular For Measuring Distance and/or Speed - In a radar system, harmonic excitation of an antenna is carried out in different frequency ranges. The antenna characteristic which varies as a function thereof is used to analyze different solid angle ranges around an object. | 08-21-2008 |
20090219193 | Object Ranging - An object ranging system operates by transmitting pulses derived from a frequency-swept signal and determining the beat frequency of a combination of the frequency-swept signal and its reflection from an object. A second (or higher) order harmonic is derived from the combination signal. Accordingly, determination of the beat frequency, and hence object range, is significantly enhanced. The frequency sweep is such that frequency changes occur at a substantially higher rate at the beginning of each the pulse repetition interval than at the end. Accordingly, because the frequency changes are concentrated in the period of pulse transmission, even reflections ‘from a close object, where the time delay between the source signal and the reflection is very short, will cause a high beat frequency. | 09-03-2009 |
20110037642 | CONTINUOUS WAVE RADAR - A continuous wave frequency shift-keyed radar apparatus comprising means for changing the frequency of the transmitted continuous wave periodically and in a pseudo-random sequence, means for mixing the received wave with the transmitted wave or a delayed version thereof to produce a beat signal, means for sampling the beat signal, in respect of each period of simultaneous transmission and reception at the same frequency, means for reordering successive segments of the sampled beat signal to put them in sequential frequency order, and means for transforming the reordered segments to provide an output signal in the range domain. | 02-17-2011 |
20120026030 | MULTI-FUNCTION RADAR DEVICE - Provided is a multi-function radar apparatus capable of measuring both a distance to a target object and a temperature of the target object with high accuracy. A transmission signal produced from a high-frequency signal generating unit ( | 02-02-2012 |
20120044104 | Device and Method for Three-Dimensional Positioning - A device and method for three-dimensional positioning are provided. The three-dimensional positioning of a common reference point is determined by fusion of supplied measurements, taking into account a lever arm compensation between the reference point, a global navigation satellite system (GNSS) receiver antenna, at least one radar antenna, and an inertial measuring unit. | 02-23-2012 |
20120119939 | RADAR APPARATUS - A radar apparatus includes a transmitter, a receiver, and a signal processor. The transmitter outputs a radar wave. The receiver includes a plurality of receiving antennas and a plurality of receiving devices. Each of the receiving devices mixes a reception signal from the corresponding receiving antenna with a local signal and outputs a beat signal. The signal processor samples the beat signal while selecting one of the receiving devices in order with a selecting period that is less than a half of a sampling period. The signal processor samples the beat signal with the sampling period and derives position information of a target by pair matching of peaks of a rising-modulation signal and a falling-modulation signal of the beat signal. | 05-17-2012 |
20120139774 | METHOD FOR DETERMINING THE DISTANCE OF A VEHICLE FROM A RADIO BEACON AND RADIO BEACON FOR THIS PURPOSE - A method and a radio beacon for determining a distance of a vehicle passing a radio beacon of a road toll system, from beacon. The vehicle is equipped with an onboard unit, which emits a signal with a known curve of its frequency over time. The method includes receiving the signal in the radio beacon during passage of the vehicle and recording a curve of its frequency over time in relation to the known frequency curve; detecting a change in the recorded frequency curve exceeding a predetermined threshold value; looking for two far regions in the frequency curve lying before and after the detected change in time and showing a frequency change below a threshold value; scaling the recorded frequency curve in such a manner that the far regions assume predetermined values; and determining the said distance from a gradient of the scaled frequency curve in an inflection point thereof. | 06-07-2012 |
20120146838 | Method & Device for Measuring a Change in Distance - Described is a device as well as a method for measuring a change in distance between a stationary initial point and an object, wherein frequency-modulated, continuous electromagnetic microwaves are emitted as an emitting signal ( | 06-14-2012 |
20120169529 | Method for Detecting a Distance, a Radar System and a Computer Program Product - The invention relates to a method for detecting a distance between a radar system and a reflecting surface. The method comprises the steps of transmitting a frequency modulated continuous wave (FMCW) radar signal from the radar system and receiving a reflected FMCW radar signal being the transmitted signal that has been reflected by the reflecting surface. Further, the method comprises the steps of providing a beat signal having a frequency that is equal to the frequency difference between the transmitted signal and the received signal and determining harmonics of the beat signal. The method also comprises the step of using phase shift information of at least one of said harmonics for determining a distance between the radar system and the reflecting surface. | 07-05-2012 |
20120313810 | RADAR APPARATUS AND METHOD - A radar apparatus for obtaining a higher range resolution than conventional radar apparatus without increasing the bandwidth comprises a transmitter antenna that transmits a frequency modulated transmit signal having a transmit bandwidth and a receiver antenna that receives a receive signal reflected from said scene in response to the transmission of said transmit signal. A mixer mixes said receive signal with said transmit signal to obtain a mixed receive signal, a sampling unit samples said mixed receive signal to obtain receive signal samples from a period of said receive signal, and a processor processes said receive signal samples by defining a measurement matrix and determines the positions of one or more targets of the scene by applying compressive sensing using said measurement matrix and said receive signal samples. | 12-13-2012 |
20140022113 | RADAR APPARATUS AND METHOD - A radar apparatus for obtaining a higher range resolution than conventional radar apparatus without increasing the bandwidth comprises a transmitter antenna that transmits a frequency modulated transmit signal having a transmit bandwidth and a receiver antenna that receives a receive signal reflected from said scene in response to the transmission of said transmit signal. A mixer mixes said receive signal with said transmit signal to obtain a mixed receive signal, a sampling unit samples said mixed receive signal to obtain receive signal samples from a period of said receive signal, and a processor processes said receive signal samples by defining a measurement matrix and determines the positions of one or more targets of the scene by applying compressive sensing using said measurement matrix and said receive signal samples. A post-processor groups together receive signal samples having a depth within the same depth bin and belonging to the same target. | 01-23-2014 |
20140118186 | RADAR APPARATUS AND SIGNAL PROCESSING METHOD - There is provided a radar apparatus. An extracting unit extracts a peak signal obtained from a difference frequency between a transmitting signal and a receiving signal during a first period in which the frequency of the transmitting signal ascends and a second period in which the frequency descends. A pairing unit pairs the peak signals of the first and second periods based on a predetermined condition. A deriving unit derives target information including a position of a target based on paired data obtained by pairing the peak signals. The pairing unit selects normal-paired data which is paired in a correct combination, from among the plurality of paired data, based on a plurality of parameter values of the peak signals of the first and second periods which are to be paired, and a discrimination function for discriminating true or false of the pairing. | 05-01-2014 |
20140145871 | RADAR APPARATUS AND SIGNAL PROCESSING METHOD - There is provided a radar apparatus configured to emit a transmission wave, to receive a reflected wave as a reception signal, and to derive target information including at least position information of a target from peak signals which are extracted by performing FFT processing for a beat signal that is generated from the reception signal. A determination unit is configured to determine whether a specific peak signal exists at a frequency that is distant from a frequency of the peak signal existing at a first frequency by a frequency of one selected peak signal selected from the plurality of peak signals. An exclusion unit is configured to exclude the target information corresponding to the selected peak signal from an output object of the radar apparatus when the specific peak signal exists. | 05-29-2014 |
20140247181 | RADAR APPARATUS AND METHOD - A radar apparatus for obtaining a higher resolution than conventional SAR apparatus without increasing the bandwidth comprises a transmitter antenna and a receiver antenna. A mixer mixes said receive signal with said transmit signal to obtain a mixed receive signal, and a sampling unit samples said mixed receive signal to obtain receive signal samples from a period of said receive signal. A processor processes said receive signal samples by defining a spatial grid in the scene with a finer grid resolution than obtainable by application of a synthetic aperture radar algorithm on the receive signal samples and determining reflectivity values at grid points of said spatial grid by defining a signal model including the relative geometry of said transmitter antenna and said receiver antenna with respect to the scene, said transmit signal and said spatial grid and applying compressive sensing on said receive signal using said signal model. | 09-04-2014 |
20140292558 | RADAR APPARATUS AND SIGNAL PROCESSING METHOD - There is provided a radar apparatus capable of extracting a peak signal obtained from a difference frequency between a transmitting signal and a receiving signal during first and second periods and deriving target information based on the extracted peak signals. A predicting unit derives a predicted peak signal obtained by predicting a current peak signal based on the peak signal obtained in a previous process. An extracting unit extracts a peak signal included within a predetermined frequency range, with the predicted peak signal being as a base point, in each of the first and second periods. A pairing unit pairs the peak signals extracted in the first and second periods. The pairing unit changes a pairing method according to the number of the peak signals extracted in each of the first and second periods. | 10-02-2014 |
20150323658 | Marine Radar Based on Cylindrical Array Antennas with Other Applications - An all-solid-state marine radar technology based on a non-rotating cylindrical array antenna is described. Multiple transmit/receive (T/R) modules are used to form the antenna beam, which allows the beam sequencing, the dwell time in each beam position, the resolution, and the beam shape to be varied in order to make best use of the available energy. Waveforms with a high duty ratio can be used on transmit in order to make efficient use of solid-state power amplifiers. High resolution in both range and Doppler provides high measurement accuracy and superior performance in clutter. Alternate embodiments, including continuous waveform embodiments are disclosed. | 11-12-2015 |
20150331091 | RADAR APPARATUS WITH QUIET SWITCH CALIBRATION AND ASSOCIATED METHODS - A radar apparatus measures at least one characteristic of at least one object. A sweep generator generates a sweep signal to modulate an oscillator to generate a varying frequency signal. A transmitter transmits the varying frequency signal as a radar signal. A receiver receives a reflected radar signal to produce a received signal using the varying frequency signal. A compensation signal memory holds a previously stored compensation signal. A compensation circuit compensates the received signal based on the previously stored compensation signal to produce a compensated received signal. A quiet switch quiets the reflected radar signal and determines the previously stored compensation signal, during calibration of the radar apparatus, and the received signal is written into the compensation signal memory. Switched loads can be used to quiet the reflected radar signal. For field calibration, the compensated signal can be adjusted but not necessarily written back into the compensation signal memory. | 11-19-2015 |
20160025845 | FREQUENCY SHIFT KEYED CONTINUOUS WAVE RADAR - A RADAR apparatus may be used in target detection and/or avoidance. The RADAR apparatus may include a microwave front end configured to transmit and receive RF signals, an analog signal conditioning module coupled with the microwave front end module that conditions RF signals received at the microwave front end module, and a digital signal processing module coupled with the analog signal conditioning module that detects presence and range of one or more targets based on the filtered RF signals. | 01-28-2016 |
20160131742 | ANGLE-RESOLVING FMCW RADAR SENSOR - An angle-resolving FMCW radar sensor, including multiple antenna elements in positions in a direction in which the radar sensor is angle-resolving and forming at least three transmitter arrays and at least one receiver array, and a control/evaluation device for an operating mode in which transmitter arrays periodically transmit signals whose frequency is modulated according to modulation ramps, and in which radar echoes of transmitted signals are received in by multiple antenna elements of the receiver array, and the located object angle is determined based on amplitude and/or phase relationships between radar echoes which correspond to different combinations of transmitter and receiver arrays. A measuring cycle of the radar sensor includes at least two periods in which in each case at least two combinations of transmitter and receiver arrays are alternated, and the combinations of transmitter and receiver arrays involved are different from one another for the at least two periods. | 05-12-2016 |
20160131753 | Adaptive Algorithms for Interrogating the Viewable Scene of an Automotive Radar - A radar system in an autonomous vehicle may be operated in various modes and with various configurations. In one example, the radar system determines a target range for further interrogation. The target range may be determined based on the radar system transmitting a first electromagnetic radiation signal and receiving a first reflected electromagnetic signal radiation signal. After the radar system determines a target range, it transmits a second electromagnetic radiation signal. Additionally, the radar system receives a reflected electromagnetic signal radiation based on the transmission. After receiving the reflected signal, the radar system can process the reflected signal to only have components associated with the target range. The processing of the reflected signal may create a processed signal. Finally, the radar system may determine at least one parameter of a target object based on the processed signal. | 05-12-2016 |
342129000 | Plural frequencies transmitted | 7 |
20080309546 | RADAR DEVICE - A radar device includes: an oscillator for generating a wave at a plurality of transmission frequencies; a transmitting antenna; a receiving antenna; a receiver for generating a real received signal; a Fourier transform unit for performing a Fourier transform on the real received signal in a time direction; a spectral peak detecting unit for receiving an input of a result of the Fourier transform to extract peak complex signal values of Doppler frequency points having a maximum amplitude; a distance calculating unit for storing the peak complex signal values and for calculating a distance to a reflecting object based on the stored peak complex signal values to output the obtained distance as a measured distance value; and a distance sign determining unit for determining validity of the measured distance value and for outputting the measured distance value and the Doppler frequency according to a result of determination. | 12-18-2008 |
20090085796 | Radar Apparatus - A distance measuring apparatus comprising a transmission antenna to radiate a transmission radio wave; a reception antenna to receive a reflected signal from a target; an analog-to-digital converter to perform an analog-to-digital conversion for converting a reception signal; and a signal processing unit to process the converted signal and to detect the target, in which a transmission frequency of the transmission radio wave to be radiated is switched at a timing synchronized with a sampling frequency of the analog-to-digital conversion, the transmission frequency is switched in accordance with an arbitrary pattern within a frequency band, and the reception signal is rearranged in order on the basis of the arbitrary pattern at a time of the transmission to then be subject to a radar signal processing. | 04-02-2009 |
20090251360 | Distance measuring device and distance measuring method - There are provided a distance measuring device and a distance measuring method characterized by “simple configuration”, “capability of measuring a near distance”, and “a small measurement error” like a distance measuring device using a standing wave. The distance measuring device includes a signal source ( | 10-08-2009 |
20100085241 | SYSTEM AND METHOD FOR OBSTACLE DETECTION AND WARNING - A obstacle detection system comprises a transmission antenna operable to radiate a radio frequency (RF) signal and a transmitter operable to control transmission of the RF signal from the antenna. The obstacle detection system also comprises a receiver antenna operable to receive a reflection of the RF signal; and processing circuitry operable to analyze a plurality of characteristics of a radar cross section (RCS) of the received reflection to identify an obstacle and one or more physical attributes of the obstacle. | 04-08-2010 |
20110187583 | Method of Measuring Distance, Notably for Short-Range Radar - The present invention relates to a procedure for measuring distance. It applies notably in respect of short-range radars, but not exclusively. The method uses an electromagnetic wave comprising at least one emission sequence ( | 08-04-2011 |
20130016001 | RADAR SENSORAANM Schoeberl; ThomasAACI HildesheimAACO DEAAGP Schoeberl; Thomas Hildesheim DEAANM Meschenmoser; ReinhardAACI HannoverAACO DEAAGP Meschenmoser; Reinhard Hannover DEAANM Zender; ArneAACI Bad SalzdetfurthAACO DEAAGP Zender; Arne Bad Salzdetfurth DEAANM Hansen; ThomasAACI HildesheimAACO DEAAGP Hansen; Thomas Hildesheim DEAANM Hilsebecher; JoergAACI HildesheimAACO DEAAGP Hilsebecher; Joerg Hildesheim DEAANM Nesemann; KarlAACI LohfeldenAACO DEAAGP Nesemann; Karl Lohfelden DEAANM Lange; OliverAACI HannoverAACO DEAAGP Lange; Oliver Hannover DE - A radar sensor including an antenna array having multiple antenna elements situated next to one another and at least one feeding point at an outer antenna element. The antenna elements are connected in series via delay lines. The radar sensor has at least two transmitting and receiving units which are each suitable for generating and evaluating a radar signal at a predefined frequency. The at least two transmitting and receiving units are connected to a feeding point of the antenna array. The frequencies of the radar signals of the at least two transmitting and receiving units are predefinable independently of one another. | 01-17-2013 |
20160041260 | RADAR APPARATUS AND OBJECT SENSING METHOD - A radar apparatus includes an antenna that receives echo signals, each of the echo signals being a radar signal reflected by one or more objects; a Doppler-frequency acquirer that acquires Doppler frequencies at each range bin from the received echo signals; a direction correlation power-value calculator that calculates direction correlation power values for respective combinations of the Doppler frequencies and at least one of a distance to the one or more objects and an arrival direction of the echo signals, each direction correlation power value indicating a strength of a corresponding echo signal; and a normalized direction correlation-value calculator that calculates, for the respective combinations, normalized direction correlation values, each normalized direction correlation value indicating a probability of the arrival direction of the corresponding echo signal. | 02-11-2016 |
342130000 | Plural modulation | 8 |
20110309969 | SYSTEM AND METHOD FOR MICROWAVE RANGING TO A TARGET IN PRESENCE OF CLUTTER AND MULTI-PATH EFFECTS - A system for measuring the range to an RFID tag including situations containing high clutter and multi-path signals is disclosed. The system includes an RFID reader; an RFID tag; and a coordinated pulse compression radar system. In the system the RFID reader causes the tag to respond to received signals in a first backscatter state at a first time and a second backscatter state at a second time. The pulse compression radar system transmits short pulses coordinated by the backscatter state of the RFID tag and the system creates a differential signal comprised of the differences between radar signals obtained during the first and second states of the tag to obtain an uncorrupted measure of a round trip time of flight of said radar pulses between the pulse radar system and the RFID tag. | 12-22-2011 |
20120127021 | SYSTEM AND METHOD FOR MICROWAVE RANGING TO A TARGET IN PRESENCE OF CLUTTER AND MULTI-PATH EFFECTS - A system for measuring range to an RFID tag including situations containing high clutter and multi-path signals is disclosed. The system includes an RFID reader; an RFID tag; and a coordinated signal compression radar system. The reader causes the tag to respond to received signals in a first backscatter state at a first time and a second backscatter state at a second time. The signal compression radar system transmits signals coordinated by the backscatter state of the tag and creates a differential signal comprised of the differences between radar signals obtained during the first and second states of the tag to obtain an uncorrupted measure of a round trip time of flight of said radar signals between the radar system and the RFID tag. The radar may use signals typical of pulse compression radar systems such as chirp modulation or Orthogonal Frequency Domain Modulation (OFDM), either pulsed or semi-continuous. | 05-24-2012 |
342131000 | Combined with pulse modulation (e.g., frequency agile) | 6 |
342132000 | With pulse modulation (e.g., "Chirp") | 6 |
20110279307 | High Duty Cycle Radar with Near/Far Pulse Compression Interference Mitigation - In conventional pulse compression processing, sidelobes from strong return signals may hide correlation peaks associated with weaker return signals. Example embodiments include methods of mitigating this near/far interference by weighting a received return signal or corresponding reference signal based the return signal's time of arrival, then performing pulse compression using the weighted signal to produce a correlation peak that is not hidden by sidelobes from another return. Multi-frequency processing can also be used to reduce the pulse width of the transmitted pulses and received return signals, thereby mitigating near/far interference by decreasing the overlap between signals from nearby targets. Weighting can be combined with multi-frequency pulse transmission and reception to further enhance the fidelity of the processed correlation peak. Weighting and multi-frequency processing also enable higher duty cycles than are possible with conventional pulse compression radars. | 11-17-2011 |
20140145872 | DETECTING AND RANGING APPARATUS AND METHOD FOR IDENTIFYING INTERFERENCE SIGNAL - A parameter changer changes the parameter of the complementary code input from a multiplexer. A separator separates the time-multiplexed complementary code of which parameter has been changed into the code sequences at the even numbers of the time slots and the code sequences at the odd numbers of the time slots. A demodulator demodulates the received signals using the parameter-changed complementary code in order to obtain the demodulated signal. An interference identifying unit identifies the interference signal included in the received signals using the demodulated signal from the demodulator. | 05-29-2014 |
20150293217 | SYSTEM AND METHOD FOR MICROWAVE RANGING TO A TARGET IN PRESENCE OF CLUTTER AND MULTI-PATH EFFECTS - A system for measuring the range to an RFID tag including situations containing high clutter and multi-path signals is disclosed. The system includes an RFID reader; an RFID tag; and a coordinated pulse compression radar system. In the system the RFID reader causes the tag to respond to received signals in a first backscatter state at a first time and a second backscatter state at a second time. The pulse compression radar system transmits short pulses coordinated by the backscatter state of the RFID tag and the system creates a differential signal comprised of the differences between radar signals obtained during the first and second states of the tag to obtain an uncorrupted measure of a round trip time of flight of said radar pulses between the pulse radar system and the RFID tag. | 10-15-2015 |
20160003940 | RANGING AND POSITIONING SYSTEM - A ranging and positioning system comprising transmitters and receiver nodes communicating together by chirp-modulated radio signals, that have a ranging mode in which ranging exchange of signals takes place between a master device and a slave device that leads to the evaluation of the range between them. The slave is arranged for recognizing a ranging request and transmit back a ranging response containing chirps that precisely aligned in time and frequency with the chirps in the ranging requests, whereupon the master can receive the ranging response, analyze the time and frequency the chirps contained therein with respect to his own time reference, and estimate a range to the slave. | 01-07-2016 |
20160033631 | RADAR DATA COMPRESSION SYSTEM AND METHOD - A radar system includes a controller equipped with memory for storing data. The controller is configured to receive a time-domain signal representative of a reflected signal detected by an antenna, and transform the time-domain signal into a plurality of range datasets. Each range dataset corresponds to one of the plurality of chirps, each range dataset is represented by a series of values assigned to a plurality of range bins, and each of the values includes a sign bit. The controller is also configured to compress the plurality of range datasets by storing in the memory a portion of each of the values assigned to at least one of the plurality of range bins, wherein the portion is defined to exclude a first number of redundant sign bits of each value. The controller may further compress the portion by retaining a second number of bits of the data by excluding some of the least significant bits of each value. | 02-04-2016 |
20160146933 | Controlling Radar Transmission to Enable Interference Mitigation - Radar detection of an object is achieved by identifying a first range associated with a possible object based on a first return from a first radar transmission having a first chirp rate, and identifying a second range associated with the possible object based on a second return from a second radar transmission having a second chirp rate that differs from the first chirp rate. The first and second ranges are evaluated together to determine whether the possible object is a true object. | 05-26-2016 |
342133000 | Combined with determining direction | 8 |
20080278368 | FREQUENCY MODULATION RADAR DEVICE - The frequency modulation radar device includes a transmitting unit ( | 11-13-2008 |
20090167593 | HANDHELD RADAR - The present invention relates to a handheld radar apparatus. The apparatus comprises an antenna ( | 07-02-2009 |
20100277361 | MOTOR VEHICLE FMCW RADAR HAVING LINEAR FREQUENCY RAMPS OF DIFFERENT SLOPES THAT ARE SET APART, WHICH ARE ASSOCIATED WITH DIFFERENT ANGULAR RANGES - An FMCW radar locating device includes a transmitting device having a controllable transmitting-signal-generating device generating a transmitting signal having a frequency corresponding to an input control signal; a control device connected to the transmitting-signal-generating device and generating the input control signal which controls the transmitting signal such that it rises periodically in a discontinuous, inconsistent linear fashion in first frequency segments, and drops periodically in a discontinuous, inconsistent linear fashion in second frequency segments; and a receiving device for receiving an echo signal reflected by an object and locating an object based on the received echo signal. | 11-04-2010 |
20120119940 | RADAR APPARATUS WITH MULTI-RECEIVER CHANNEL - In a radar apparatus, a signal processor successively selects outputs of a plurality of receiving channels at time intervals and repeat, at a sampling cycle, a sequence of the successive selections of the outputs of the plurality of receiving channels, thus sampling values of a beat signal. The signal processor changes a value of the time interval for a current sequence of the successive selections of the outputs of the plurality of receiving channels so that the value of the time interval for the current sequence of the successive selections of the outputs of the plurality of receiving channels is different from a value of the time interval for a previous sequence of the successive selections of the outputs of the plurality of receiving channels. | 05-17-2012 |
20140292559 | RADAR APPARATUS AND SIGNAL PROCESSING METHOD - There is provided a radar apparatus capable of emitting a transmission wave relating to a transmitting signal which is frequency-modulated, and receiving a reflection wave coming from a target at which the transmission wave is reflected as a receiving signal, to derive at least position information of the target based on the receiving signal. A deriving unit derives a fluctuation value of a signal level relating to the receiving signal for a stationary target among the targets. A calculating unit calculates a fluctuation integrated value integrated by the fluctuation value. A judging unit judges the stationary target as a target other than a control subject if the fluctuation integrated value is below a predetermined threshold. | 10-02-2014 |
20140333471 | METHOD FOR MEASURING THE POSITION OF A SURFACE OF A VEHICLE - A method for measuring the position of a surface of a vehicle on a roadway comprising the following steps: transmitting and receiving radar beams at transmitting and receiving positions in various primary transmitting and primary receiving directions and converting these beams into received signals; selecting the received signal having the greatest signal strength; and determining the aforementioned position from the transmitting and receiving positions and the primary transmitting and primary receiving directions of the received signal having the greatest signal strength. | 11-13-2014 |
20140333472 | APPARATUS FOR MEASURING THE POSITION OF A VEHICLE OR A SURFACE THEREOF - An apparatus is disclosed for measuring the position of a vehicle or a surface thereof on a roadway. The apparatus comprises at least one radar transmitter, which is arranged in a transmitting position above the plane of the roadway and transmits radar beams downwardly, a plurality of radar receivers, which are distributed above the plane of the roadway in different receiving positions at distances from one another, receive reflections of the radar beams from beneath, and convert the reflections into a received signal, and an evaluation device, which is connected to the radar transmitter and the radar receivers and is configured to measure the said position from the transmitting position, the receiving positions and the received signals. | 11-13-2014 |
20140347208 | Method for evaluating obstacles in a driver assistance system for motor vehicles - A method for evaluating obstacles based on locating data of a radar sensor in a driver assistance system for motor vehicles, in which at least one evaluation function is calculated which indicates, as a function of a set of measured variables which are related to a potential obstacle, whether the potential obstacle is to be evaluated as a real obstacle, a complexity indicator being formed based on the locating data which indicates the complexity of a present measurement situation, and at least two different evaluation functions being defined for the same set of measured variables, and it being decided which of the evaluation functions is applied in the present measurement situation as a function of the complexity indicator. | 11-27-2014 |