Abstract: Systems, devices, and methods are provided for calculating a course for avoiding user identified criteria. A navigation device with route calculation capabilities includes a processor connected to an input and a memory that includes cartographic data and user identified criteria. A route calculation algorithm can be used to calculate a course between two or more waypoints based on the predefined user criteria of the cartographic data. Performing the route calculation algorithm includes analyzing the cartographic data with a preference for providing the course that identifies and avoids the user identified criteria. A display is connected to the processor and is capable of displaying the calculated route and cartographic data. The device is also adapted to dynamically analyze an area surrounding a present location for user identified criteria to avoid and display the results of the analysis.
Type:
Grant
Filed:
September 18, 2003
Date of Patent:
June 10, 2008
Assignee:
Garmin Ltd.
Inventors:
Darrin W. Kabel, Steven J. Myers, Devon A. Rolf
Abstract: A portable navigation device is provided that includes a receiver configured to receive signals from GPS satellites. The device includes memory that stores a non-navigation application and non-navigation information related to the non-navigation application. A user interface is configured to enable an operator to enter non-navigation instructions related to the non-navigation application. The a processor module is provided that calculates a position of the device based on the signals from the GPS satellites. The processor module implements the non-navigation application and performs non-navigation operations defined by the non-navigation application based on the non-navigation instructions entered by the user. The processor module disables the non-navigation application after a predetermined trial period of time following a start time unless and until an application access code is entered.
Abstract: A personal training device (10) adapted to assist a user in reaching performance goals, navigating, and accumulating performance statistics. In a preferred embodiment, the device broadly comprises a housing (10); an attachment mechanism (30); a GPS component (40); a user interface (50), including an input portion (52) and an output portion (54); a processor (60), including a timer (62) and a memory element (64); a data interface (70), including an input portion (72) and an output portion (74); an audio component (80); and a power supply (90). The device (10) is adapted to store goal information, monitor performance using GPS-derived data, and communicate performance information.
Type:
Application
Filed:
December 13, 2007
Publication date:
April 24, 2008
Applicant:
GARMIN LTD.
Inventors:
Wai Lee, Tracy Olivier, Ryan Moore, Claudette Fisher, David Downey, John Lovitt, Scott Brunk
Abstract: A navigation assembly (5l) for mounting a navigational device (10l) in an open port (12l) of a vehicle resulting from removal of a non-navigational component is provided. The navigation assembly (5l) broadly comprises a mounting assembly (218l) and the navigational device (10l). The mounting assembly (218l) is mounted within the open port (12l), and the navigational device (10l) is fixedly or removably attached to the mounting assembly (218l), such that the navigational device (10l) may be linearly raised or lowered between two viewing positions that are in a general linear relationship to each other. The navigational device (10l) is operable to pivot left and right within the open port (12l). Additionally, a navigation assembly (5m) broadly comprising a mounting assembly (218m) and a navigational device (10m) for raising and lowering the navigational device (10m) among three viewing positions that are in a general linear relationship to each other is provided.
Type:
Grant
Filed:
December 20, 2006
Date of Patent:
April 22, 2008
Assignee:
Garmin Ltd.
Inventors:
David J. Laverick, Brian G. Schoenfish, Jeffrey D. Minelli
Abstract: A method and apparatus for remotely controlling a power state of devices comprises interconnecting, with an Ethernet cable, a first multi-function display (MFD) and at least one device for communicating with the first MFD. The first MFD comprises a switch for changing a power state. A power source provides power for the first MFD and the at least one device. The first MFD remotely controls the power state of the at least one device through a control signal output to the Ethernet cable. The at least one device receives the control signal and changes the power state of the at least one device in response to the control signal.
Abstract: A device and method for filtering traffic information. In one embodiment, the device comprises a traffic component, a computing device coupled with the traffic component, and a display coupled with the computing device. The traffic component is operable to receive traffic data corresponding to a plurality of traffic events. The computing device is operable to filter the received traffic data based on the severity of the traffic events to form filtered traffic data and the display is operable to present an indication of the filtered data.
Abstract: A device, system, and method for grouping traffic events. In one embodiment, the device comprises a traffic component, a computing device coupled with the traffic component, and a display coupled with the computing device. The traffic component is operable to receive data corresponding to a plurality of traffic events. The computing device is operable to identify at least two related traffic events and form a traffic event group representing at least two of the related traffic events. The display is operable to present an indication of the formed traffic event group. Such a configuration enables users to more easily access relevant traffic information.
Abstract: A device, system, and method which permit consumers to more effectively and efficiently shop for the lowest priced goods and services such as fuel. The device includes a GPS receiver for receiving satellite signals from GPS satellites and for determining a current location of the electronic device as a function of the satellite signals; a display; and a computing device coupled with the GPS receiver and the display. The computing device displays prices for sellers within a geographic area selected by the user or related to the current location of the device. The computing device determines an average price charged by certain sellers within the geographic area and indicates which sellers have prices above or below the calculated average price. The device also displays distances between the user's current location and the sellers and provide routing or other directions to a selected seller.
Abstract: An electronic personal navigational aid device configured to calculate a route and to automatically call a telephone number and deliver a message depending upon the location of the device along the route. The devices may further be configured, for example, to dial at a certain estimated time enroute to a delivery or pickup stop and/or to listen to an autodialed party to determine how many packages the autodialed party has for pickup.
Abstract: A portable apparatus (10) providing both substantially automated performance monitoring and audio entertainment features. In a preferred embodiment the apparatus (10) broadly comprises a portable housing (12); an attachment mechanism (14); a GPS component (16); a heart rate monitor component (17); an audio component (18); a user interface (20); a processor (26); and a power supply (30). The housing (12) may include a headset (1112a) wherein the GPS component (16) is located, and a second housing component (1112b) wherein the processor (26) is located, wherein the GPS component (16) communicates with the processor (26) in a wireless manner. The apparatus (10) is adapted to determine a number of laps or a distance, to provide an elapsed time, and to determine a speed.
Type:
Grant
Filed:
February 17, 2005
Date of Patent:
April 1, 2008
Assignee:
Garmin Ltd.
Inventors:
Jonathan C. Burrell, John H. Lovitt, John C. Conrad
Abstract: A portable electronic device includes a radio frequency receiver; a radio frequency transmitter; and a processing system coupled with the receiver and transmitter. The processing system directs the receiver to scan a radio frequency spectrum for available radio channels over which the transmitter may transmit. The processing system may further direct the receiver to perform a second scan for radio channels which are actively transmitting information. The processing system then selects an available radio channel as the radio channel best suited for use by the transmitter to transmit information to the external audio system. The processing system may select a transmission frequency which is spectrally distant from the active radio channels and/or may take into account a transmission profile of the transmitter to select a frequency that does not interfere with the reception of incoming radio signals.
Abstract: A navigational aid device is provided that includes a GPS module, a processor, and memory. The device is configured to automatically determine a route to a destination and to account for, in its determination of a route, a plurality of modes of public, private, or both public and private transportation. Some of these configurations may also be configured to recommend a mode or modes of transportation to take to get to a destination, and/or accept user preferences in recommending a route or the mode or modes of transportation to take to get to the destination.
Abstract: Embodiments of the present invention provide a tracking apparatus (100) and method that are operable to efficiently track an animal. The tracking apparatus (100) is operable to be worn by an animal, determine its current geographic location, and transmit information relating to its current geographic location to an external device such as a portable navigation unit (200). The navigation unit (200) is operable to display a representation of the geographic location of the tracking apparatus (100) for consideration by a user.
Type:
Application
Filed:
August 8, 2006
Publication date:
February 14, 2008
Applicant:
GARMIN LTD.
Inventors:
Bronson D. Hokuf, Henry J. Straub, James R. Kummer