Business and Commercial Litigation Environmental Insurance Coverage Insurance Defense Intentional Torts Litigation Medical Malpractice Premises Liability Product Liability Toxic Tort Workers Compensation Workers' Compensation Law Wrongful Death Civil Rights Employment / Labor Health Care
Examples relating to vehicle velocity calculation using radar technology are described. An example method performed by a computing system may involve, while a vehicle is moving on a road, receiving, from two or more radar sensors mounted at different locations on the vehicle, radar data representative of an environment of the vehicle. The method may involve, based on the data, detecting at least one scatterer in the environment. The method may involve making a determination of a likelihood that the at least one scatterer is stationary with respect to the vehicle. The method may involve, based on the determination being that the likelihood is at least equal to a predefined confidence threshold, calculating a velocity of the vehicle based on the data from the sensors. The calculated velocity may include an angular and linear velocity. Further, the method may involve controlling the vehicle based on the calculated velocity.
Radar Based Mapping And Localization For Autonomous Vehicles
- Mountain View CA, US Timothy Campbell - Venice CA, US
International Classification:
G01S 13/93 G01S 13/30 G05D 1/00 G05D 1/02
Abstract:
In an example method, a vehicle configured to operate in an autonomous mode could have a radar system used to aid in vehicle guidance. The method could include transmitting at least two signal pulses. The method further includes, for each transmitted signal pulse, receiving a reflection signal associated with reflection of the respective transmitted signal pulse. Each reflection signal may be received when the apparatus is in a different respective location. Additionally, the method includes processing the received reflection signals to determine target information relating to one or more targets in an environment of the vehicle. Also, the method includes correlating the target information with at least one object of a predetermined map of the environment of the vehicle to provide correlated target information. Yet further, the method includes storing the correlated target information for the at least one object in an electronic database.
Calculating Velocity Of An Autonomous Vehicle Using Radar Technology
Examples relating to vehicle velocity calculation using radar technology are described. An example method performed by a computing system may involve, while a vehicle is moving on a road, receiving, from two or more radar sensors mounted at different locations on the vehicle, radar data representative of an environment of the vehicle. The method may involve, based on the data, detecting at least one scatterer in the environment. The method may involve making a determination of a likelihood that the at least one scatterer is stationary with respect to the vehicle. The method may involve, based on the determination being that the likelihood is at least equal to a predefined confidence threshold, calculating a velocity of the vehicle based on the data from the sensors. The calculated velocity may include an angular and linear velocity. Further, the method may involve controlling the vehicle based on the calculated velocity.
Radar Generated Occupancy Grid For Autonomous Vehicle Perception And Planning
- Mountain View CA, US Timothy Campbell - Los Angeles CA, US
International Classification:
G01S 13/93 G01S 13/86 G01S 13/42
Abstract:
Systems and methods are described that relate to generating an object grid for a vehicular radar system. The method includes transmitting a radar signal over a 360-degree azimuth. The method also includes receiving one or more reflection signals respectively associated with reflection of the transmitted radar signal by one or more objects. The method further includes determining, for each object, a respective measured angle, a respective measured distance, and a respective measured velocity. Additionally, the method includes determining a first object grid based on the one or more objects. The first object grid comprises a plurality angles that together cover the 360-degree azimuth and, for each angle that corresponds to a measured angle of a given object, the first grid associates the angle with the measured distance and measured velocity of the given object. Yet further, the method includes controlling an autonomous vehicle based on the first object grid.
Career Summary 1974 to 2000Peterson Construction Company Woodland Hills, CA Feb 2007 to Nov 2014 Commercial Residential SuperintendentS & S Construction Company / Shapell Industries, Inc Ranch, CA, US Mar 2005 to Feb 2007 Residential Assistant SuperintendentL / P Construction Company Alhambra, CA Jun 1995 to Mar 2005 Residential Superintendent
Education:
Pierce College Woodland Hills, CA 2011 General EducationWest Valley Occupational Center Woodland Hills, CA 2008 Computer TechnologyPierce College Woodland Hills, CA 1998 ComputersPierce College Woodland Hills, CA 1982 Industrial Blueprint ReadingWilliam H. Taft Senior High School Woodland Hills, CA 1981 High School Diploma in General EducationCarpenter Union Trades School North Hollywood, CA Journeyman
General Contractor 1974 to 2000Peterson Construction Company Woodland Hills, CA 2007 to 2014 Commercial Residential SuperintendentS & S Construction Company / Shapell Industries, Inc Ranch, CA, US 2005 to 2007 PorterL / P Construction Company Alhambra, CA 1995 to 2005 Residential Superintendent
Education:
Pierce College Woodland Hills, CA 2008 AA in General StudiesWest Valley Occupational Center Woodland Hills, CA 2003 CertificatePierce College Woodland Hills, CA 1998 Industrial / ManagementCarpenter Union Trades School North Hollywood, CA 1982 JourneymanWilliam H. Taft Senior High School Woodland Hills, CA 1980 Diploma in Math, Social Studies
Jun 2014 to 2000 Operations Manager, CY OperationsTotal Terminals International- Long Beach, CA
Feb 2013 to Jun 2014 Assistant Operations ManagerSpectraTurf Corona, CA Jun 2012 to Feb 2013 InstallerUline Ontario, CA Aug 2010 to Jun 2012 Team LeadSpectraTurf Corona, CA May 2006 to Aug 2010 Shipping/Receiving Clerk
Education:
California Baptist University Riverside Riverside, CA Aug 2006 to May 2010 B.S. in Business Administration
Peterson Construction Company Woodland Hills, CA 2010 to 2012 Commercial Residential General SuperintendentHome Depot Hollywood, CA 2007 to 2009 Sales SpecialistL / P Construction Company Alhambra, CA 1996 to 2006 Commercial Residential Superintendent
Education:
Pierce College Woodland Hills Woodland Hills, CA 2011 General Studies / Computer / ManagementCarpenter Union Trades School North Hollywood North Hollywood, CA 2002 CertificateWest Valley Occupational Center Woodland Hills Woodland Hills, CA 1998 Industrial / ManagementWilliam H. Taft Senior High School Woodland Hills Woodland Hills, CA 1984
2004 to 2000 Senior District Safety SpecialistGambro Healthcare Palm Springs, CA 2003 to 2004 Technician/Safety ConsultantWaste Management Palm Desert, CA 2001 to 2002 District Environmental Health and Safety ManagerVestas-American Wind Technology Palm Springs, CA 1999 to 2001 Corporate Environmental Health and Safety ManagerJoshua Springs High School Yucca Valley, CA 1995 to 1999 Science facilitator/Lab Safety
Education:
Grand Canyon University 2011 Master of Science in Leadership Disaster Preparedness & Executive Fire LeadershipAzusa Pacific University 2008 Bachelors of Science in Organizational leadershipUniversity of California Riverside, CA 1999 to 2000 ManagementUniversity of California at San Diego San Diego, CA 2000 General Industry for Managers Title 8Rocky Mountain Education Center Lakewood, CO 2000Quality Resource Center Palm Springs, CA 2000
Medicine Doctors
Dr. Timothy R Campbell, Sherman Oaks CA - DC (Doctor of Chiropractic)
4419 Van Nuys Blvd Suite 200, Sherman Oaks, CA 91403 8187835025 (Phone), 8187830743 (Fax)
Procedures:
Diet Counseling Manipulation Adjustments of Back & Neck Nutritional Counseling
Conditions:
Acid Reflux Back Disorders Back Injuries Back Sprain Carpal Tunnel Syndrome Lower Back Injuries Muscle Conditions Musculoskeletal Diseases Neck Disorders Neck Injuries Neck Muscle Strain Neck Pain Numbness Sciatica (Not Due to Disc Displacement) Shoulder Pain Sports Injuries Sprain Weight Loss Whiplash Injuries
Languages:
English
Philosophy:
Dr. Campbell looks at the individual from a whole person approach, taking into consideration history, symptomatology, lab work, and intake forms which breaks the organ systems down. Another intake form looks at brain stress, sugar stress, and the neurotransmitters and how they are functioning for the individual.
Education:
Undergraduate Schools California Polytecnic University Graduated: 1977 Undergraduate Schools Cleveland Chiropractic College Graduated: 1981
Allergy Partners PAAllergy Partners Of Hampton Roads 1144 Professional Dr, Williamsburg, VA 23185 7572590443 (phone), 7572590450 (fax)
Allergy Partners PAAllergy Partners Of Hampton Roads 895 City Ctr Blvd STE 302, Newport News, VA 23606 7575968025 (phone), 7575968029 (fax)
Education:
Medical School University of Cincinnati College of Medicine Graduated: 1993
Languages:
English Spanish
Description:
Dr. Campbell graduated from the University of Cincinnati College of Medicine in 1993. He works in Williamsburg, VA and 1 other location and specializes in Allergy & Immunology. Dr. Campbell is affiliated with Bon Secours Mary Immaculate Hospital.