Abstract:
Apparatus, methods and system relating to a vehicular telemetry environment for an intelligent Bluetooth beacon I/O expansion of the vehicular telemetry hardware system. The intelligent Bluetooth beacon I/O expansion provides a capability to receive beacon data, log beacon data, communicate beacon data and operate on beacon data to determine and further communicate a range of operational conditions, such as damage, hazardous and missing objects in the form of text messages, audio messages or compliance and management reports.
Abstract:
A method and apparatus for use in a mobile device telemetry system is disclosed. The method and apparatus relate to a telematics furtherance visualization system. The system can sense mobile device remote observation misalignment risk and reconcile mobile device remote observation alignment by communicating a subsequent log of mobile device vector data for rendering a sequence of next positions in the furtherance of a mobile device. The system can also provide an adaptive rendering based upon a phase shift, a log of mobile device vector data, or predictive rendering until receipt of the next subsequent log of mobile device vector data.
Abstract:
A method and apparatus in a vehicular telemetry system for an intelligent I/O expander. The intelligent I/O expander may be configured in an active mode or a passive mode. A vehicular telemetry hardware system may be configured in a passive serial control mode or an active serial control mode. The intelligent I/O expander capable of adding additional device to the vehicular telemetry system.
Abstract:
The present invention relates to an apparatus and method for optimally recording or transmitting positional data and events of an object, said apparatus including input means to continuously provide positional data to a microprocessor and a memory device to store selected positional data wherein the microprocessor is programmed to compares new positional data from said input means to previously recorded log of positional data and creates a new log if the new positional data differs from the previously recorded log in accordance with pre-determined parameters.
Abstract:
Systems, methods, devices, and models determining fuel level in vehicles are described. Raw fuel sensor data tends to be noisy and of low quality. Herein, operational data is collected, which is used to determine times when motion of the vehicle is stable. Raw fuel sensor data for these times is collected in a data subset, which is used to determine fuel level. Quality fuel sensor data is thus obtained. Fuel data can be combined over different time periods to provide a prompt initial fuel level, and an intermittent fuel level during a trip.
Abstract:
A method of activating an asset tracker from an ultra-low power shipping mode to a motion detection mode. The method includes detecting an activation trigger activity including double-tapping on the housing of the asset tracker, mid-air gestures comprising orientation changes, touch sensing, optical sensing, and loss of proximity with a proximity object in the packaging of the asset container.
Abstract:
This disclosure proposes a system in which two redundant asset tracking devices are used to monitor a single asset (such as a vehicle, which may contain a group of assets in cargo) via two distinct communication systems that operate in parallel, and which may operate in addition to any primary mode of communication used by the asset tracking devices (e.g., cellular communication). In some examples, each asset tracking device may communicate through separate and distinct satellite communication networks.
Abstract:
A housing for an electronic device having an integrated battery compartment is provided. The integrated battery compartment has battery contacts and battery retainers that maintain batteries in place despite motion or impact forces.
Abstract:
The present disclosure relates to systems, methods, and devices for controlling charging of vehicles, to avoid charging during charge-adverse time periods or during charge restriction events. This can advantageously reduce cost to vehicles owners, and or provide access to reward incentives. Further, power distribution entities (utility providers) advantageously have increased control over power distribution to avoid over-burdening of power distribution infrastructure. Further, systems and methods for determining or inferring whether a vehicle is connected to a charge station are described, which can be used to inform automatic restriction of vehicle charging.
Abstract:
The present disclosure relates to systems and methods for identifying vehicle asset pairings. For example, a method for identifying a vehicle asset pairing, the method comprising operating at least one processor to: receive telematics data comprising geospatial data associated with a plurality of vehicle assets; identify one or more positions of each of the plurality of vehicle assets reported within a selected timeframe; define a search zone based on a selected reported position of a selected vehicle asset; identify one or more candidate vehicle asset pairings, each candidate vehicle asset pairing being between the selected vehicle asset and a candidate vehicle asset having at least one reported position located within the search zone; identify, if the candidate vehicle asset has two or more reported positions within the search zone, a first reported position and a second reported position of the candidate vehicle asset; generate an interpolated position of the candidate vehicle asset based on the first reported position and the second reported position thereof that is most proximate the selected reported position, for each candidate vehicle asset pairing; and identify the vehicle asset pairing based at least in part on a distance of the interpolated position from the selected reported position, of each candidate vehicle asset pairing.