Patents by Inventor Gerhard Koepf

Gerhard Koepf has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Patent number: 7970496
    Abstract: The present invention provides systems and methods for provisioning a vehicle interface module comprising receiving a VIM from a VIM manufacturer and entering appropriate VIM data into a dealer inventory, activating a SIM card for the VIM and installing the VIM in a predetermined vehicle, selecting a wireless activated VIM from the dealer inventory and connecting the VIM to an OBD-II port of the vehicle, connecting a configuration PC to the VIM and downloading a modem configuration, selecting and downloading a vehicle-specific configuration file, accessing a telematics services provider's web portal, entering appropriate vehicle data, and associating the vehicle with the VIM, installing the VIM in the predetermined vehicle, and conducting an installation verification test.
    Type: Grant
    Filed: August 6, 2010
    Date of Patent: June 28, 2011
    Assignee: Inilex, Inc.
    Inventors: Gerhard Koepf, Robert Yandrofski, Roy G. Perry, Jonathan Cooper
  • Publication number: 20100299020
    Abstract: The present invention provides systems and methods for provisioning a vehicle interface module comprising receiving a VIM from a VIM manufacturer and entering appropriate VIM data into a dealer inventory, activating a SIM card for the VIM and installing the VIM in a predetermined vehicle, selecting a wireless activated VIM from the dealer inventory and connecting the VIM to an OBD-II port of the vehicle, connecting a configuration PC to the VIM and downloading a modem configuration, selecting and downloading a vehicle-specific configuration file, accessing a telematics services provider's web portal, entering appropriate vehicle data, and associating the vehicle with the VIM, installing the VIM in the predetermined vehicle, and conducting an installation verification test.
    Type: Application
    Filed: August 6, 2010
    Publication date: November 25, 2010
    Inventors: Gerhard Koepf, Robert Yandrofski, Roy G. Perry, Jonathan Cooper
  • Patent number: 7818098
    Abstract: The present invention provides systems and methods for provisioning a vehicle interface module comprising receiving a VIM from a VIM manufacturer and entering appropriate VIM data into a dealer inventory, activating a SIM card for the VIM and installing the VIM in a predetermined vehicle, selecting a wireless activated VIM from the dealer inventory and connecting the VIM to an OBD-II port of the vehicle, connecting a configuration PC to the VIM and downloading a modem configuration, selecting and downloading a vehicle-specific configuration file, accessing a telematics services provider's web portal, entering appropriate vehicle data, and associating the vehicle with the VIM, installing the VIM in the predetermined vehicle, and conducting an installation verification test.
    Type: Grant
    Filed: December 19, 2006
    Date of Patent: October 19, 2010
    Assignee: Inilex, Inc.
    Inventors: Gerhard Koepf, Robert Yandrofski, Roy G. Perry, Jonathan M. Cooper
  • Publication number: 20080147245
    Abstract: The present invention provides systems and methods for provisioning a vehicle interface module comprising receiving a VIM from a VIM manufacturer and entering appropriate VIM data into a dealer inventory, activating a SIM card for the VIM and installing the VIM in a predetermined vehicle, selecting a wireless activated VIM from the dealer inventory and connecting the VIM to an OBD-II port of the vehicle, connecting a configuration PC to the VIM and downloading a modem configuration, selecting and downloading a vehicle-specific configuration file, accessing a telematics services provider's web portal, entering appropriate vehicle data, and associating the vehicle with the VIM, installing the VIM in the predetermined vehicle, and conducting an installation verification test.
    Type: Application
    Filed: December 19, 2006
    Publication date: June 19, 2008
    Applicant: SkyWay Systems, Inc.
    Inventors: Gerhard Koepf, Robert Yandrofski, Roy G. Perry, Janothan Cooper
  • Publication number: 20070066330
    Abstract: Fast macrodiversity switching (FMS) of channels that employ interleaving. The fast macrodiversity switching dynamically switches radio links used for traffic and control channels for a mobile station among a number of base transceiver stations (BTS) without switching the radio resource, using the same frequency and time slot combination (TDMA) in an environment where interleaving is occurring. The fast macrodiversity switching of channels and interleave processing is under control of an interleave manager which is distributed among zone managers. The control by the host and assistant zone managers includes switching down-link signals to and up-link signals from mobile stations among base transceiver stations which include broadcast channels (non-switched) and dedicated (switched) channels that employ interleaving. The dedicated channels are switched as frequently as a signal switch time which can be the frame rate of the up-link signals.
    Type: Application
    Filed: August 31, 2006
    Publication date: March 22, 2007
    Inventors: Bhupal Dharia, Gopal Chillariga, Ujjal Ghoshtagore, Rohit Kaushal, Gerhard Koepf, Lance Uyehara
  • Publication number: 20070042786
    Abstract: Dynamic allocation of communication channels among communication units (CU) in a communications system. Dynamic channel allocation employs a reservation set for reserving channels and an allocation set corresponding to the reservation set for receiving allocated channels. The reservation set and the allocation set are changed dynamically as a function of network parameters to control the dynamic channel operation. Reservation set information is broadcast downlink to multiple users to reserve an allocation set of uplink radio resources for specific ones of the users. The system uses a modification of the packet data channel (PDCH) of a GPRS/EGPRS or EDGE system which employs an Uplink Status Flag (USF) on each PDCH downlink radio block. The downlink reservation set information is commonly received by all users in the group of users. Allocation delay, bandwidth efficiency and other system parameters are optimized.
    Type: Application
    Filed: August 21, 2006
    Publication date: February 22, 2007
    Inventors: Gopal Chillariga, Rohit Kaushal, Bhupal Dharia, Lance Uyehara, Gerhard Koepf, Kevin Raack, Ujjal Ghoshtagore
  • Publication number: 20060153147
    Abstract: A communication system for communication using wireless signals in a fast macrodiversity switching environment. The wireless signals include downlink signals to and uplink signals from mobile stations where the wireless signals have bursts in time slots. In the communication system, a plurality of transceiver stations have broadcast channels (non-switched) and dedicated channels. (switched) for the wireless signals. A zone manager controls the fast macrodiversity switching of bursts in dedicated channels among transceiver stations. The fast macrodiversity switching causes the bursts to have time shifts that are of a magnitude to cause unwanted burst overlap. A macro-diversity timing control controls the timing of bursts, to reduce burst overlap, in dedicated channels that have been dynamically switched timing problem.
    Type: Application
    Filed: February 17, 2006
    Publication date: July 13, 2006
    Inventors: Gopal Chillariga, Bhupal Dharia, Gerhard Koepf, Lance Uyehara
  • Publication number: 20060078039
    Abstract: A communication system using fast macrodiversity switching (FMS) and frequency hopping (FH) for wireless signals including downlink signals to and uplink signals from mobile stations. Frequency hopping sequences are determined for the uplink and downlink signals for the mobile stations. A plurality of transceiver stations employ broadcast channels and dedicated channels for communications with the mobile stations. A zone manager controls fast macrodiversity switching of dedicated channels among the mobile stations while broadcast channels remain unswitched. The zone manager extracts frequency hopping information to form predictions of dedicated channel collisions, and based upon the predictions, controls the dynamic switching of dedicated channels to avoid collisions.
    Type: Application
    Filed: November 28, 2005
    Publication date: April 13, 2006
    Inventors: Naveen Dhar, Lance Uyehara, Ujjal Ghoshtagore, Gerhard Koepf, Jingqing Xiao