Patent application number | Description | Published |
20090254240 | VEHICLE MAINTENANCE SYSTEMS AND METHODS - A system that enables a fleet of vehicles to be maintained is provided. The disclosed system allows a fleet operator to review the history of the vehicles in the fleet along with vehicle sensor data to identify earmarks in the vehicle sensor data that are predictive of faults that the vehicles have experienced. The operator develops statistical algorithms that can detect an earmark in vehicle sensor data. The system then collects vehicle sensor data and applies the statistical algorithms the vehicle data to determine if a potential fault is going to occur in a vehicle. In response to determining that a potential fault is going to occur, the disclosed system automatically alerts the vehicle driver, automatically schedule a maintenance visit, automatically check the fleet inventory for components required for a maintenance visit and order unavailable components, and automatically dispatch the components to the mechanic. | 10-08-2009 |
20090296990 | EVALUATING DRIVER WALK DISTANCES AND BUILDING TYPES USING OVERHEAD IMAGERY - A method of determining a distance to be walked by a delivery vehicle driver including providing a satellite image that has an image of a building to which an item is to be delivered and an image of a street adjacent to the building. The method further includes defining a path, within the image, that corresponds to a path that the delivery vehicle driver will walk when delivering the item to the building. The method also includes the step of determining a length of the path. | 12-03-2009 |
20100088163 | Systems and Methods for Utilizing Telematics Data To Improve Fleet Management Operations - According to various embodiments, a fleet management system is provided for capturing, storing, and analyzing telematics data to improve fleet management operations. The fleet management system may be used, for example, by a shipping entity (e.g., a common carrier) to capture telematics data from a plurality of vehicle sensors located on various delivery vehicles and to analyze the captured telematics data. In particular, various embodiments of the fleet management system are configured to analyze engine idle data in relation to other telematics data in order to identify inefficiencies, safety hazards, and theft hazards in a driver's delivery process. The fleet management system may also be configured to assess various aspects of vehicle performance, such as vehicle travel delays and vehicle speeds. These analytical capabilities allow the fleet management system to assist fleet managing entities, or other entities, in analyzing driver performance, reducing fuel and maintenance costs, and improving route planning. | 04-08-2010 |
20100094688 | DRIVER TRAINING SYSTEMS - A computer system that is configured to: (A) define a geofence surrounding a geographic area; (B) gather information associated with the geofenced area; and (C) assign one or more parameters to the geofenced area based on the information gathered, wherein at least one of the assigned parameters is used to monitor the performance of a delivery vehicle driver while the delivery vehicle driver is operating a delivery vehicle within the geofenced area. In particular embodiments, the parameters include a backup limit defining a number of times a delivery vehicle operating within the geofenced area is permitted to back up while operating the delivery vehicle within the geofenced area (e.g., during a particular delivery cycle). In other embodiments, the parameters include a maximum speed limit for the geofenced area. The system may be adapted to automatically generate an alert in response to the delivery vehicle operating outside of the defined parameters. | 04-15-2010 |
20100094769 | VEHICLE ROUTING AND SCHEDULING SYSTEMS - A routing and scheduling computer system that is adapted to define a plurality of geofenced areas and to monitor vehicle activity within each of those areas (e.g., via telematics sensors mounted on vehicles traveling within the areas). The system may be adapted to use information regarding the monitored vehicle activity to estimate: (1) a first amount of time associated with the delivery of a plurality of parcels to one or more respective locations within a first one of the geofenced areas; and (2) a second amount of time associated with the delivery of a plurality of parcels to one or more respective locations within a second one of the geofenced areas. The system may then route a particular vehicle to make one or more pickups or deliveries within the first or second geographic areas based at least in part on the first and second estimates of time. | 04-15-2010 |
20100100315 | Determining Speed Parameters In A Geographic Area - Systems, methods, apparatus, and computer program products are provided for assigning parameters to a geographic area, wherein the parameters may be used to associate a speed limit with the geographic area. For example, in one embodiment, a geofenced area that (a) corresponds to a geographic area and (b) comprises one or more street segments is identified. Additionally, speed data associated with one of more of the street segments is received. After receiving the speed data, a speed limit is (a) determined for one or more of the street segments and (b) associated with the geofenced area. | 04-22-2010 |
20100100507 | Determining Vehicle Visit Costs To A Geographic Area - Systems, methods, apparatus, and computer program products are provided for assigning parameters to a geographic area to provide more accurate cost and fee estimates associated with a delivery vehicle visit (e.g., a package pickup/delivery) to a location within the geographic area. For example, a geographic area may be defined and information collected that is associated with the geographic area. After defining the geographic area and collecting relevant information, an estimated cost associated with a delivery vehicle visit to a location within the geographic area can be determined, based, for example, at least in part on the information gathered. | 04-22-2010 |
20110196644 | DETERMINING SPEED PARAMETERS IN A GEOGRAPHIC AREA - Systems, methods, apparatus, and computer program products are provided for assigning parameters to a geofenced area. For example, in one embodiment, a geofenced area that (a) corresponds to a geographic area and (b) comprises one or more street segments is defined. Speed parameters can be assigned to the geofenced area. After receiving speed data, it can be determined whether the speed parameters have been exceeded. | 08-11-2011 |
20110320377 | AUTONOMOUS COMMUNICATION IN SHIPPING - The invention provides a system and method for the autonomous wireless communication between a service provider device and a customer device. The customer device may notify the service provider device whether the customer has work to be performed by the service provider. The service provider device may provide information to the customer about work to be performed by the service provider. In one embodiment, a shipping service is notified autonomously about items that a customer has for pick up and shipment. The shipping service is also capable of wirelessly transferring information to a customer device about items to be delivered to that customer. | 12-29-2011 |
20120146810 | COMMERCIAL AND RESIDENTIAL BACKUPS - A computer system that is configured to: (A) define a geofence surrounding a geographic area; (B) gather information associated with the geofenced area; and (C) assign one or more parameters to the geofenced area based on the information gathered, wherein at least one of the assigned parameters is used to monitor the performance of a delivery vehicle driver while the delivery vehicle driver is operating a delivery vehicle within the geofenced area. In particular embodiments, the parameters include a backup limit defining a number of times a delivery vehicle operating within the geofenced area is permitted to back up while operating the delivery vehicle within the geofenced area (e.g., during a particular delivery cycle). In other embodiments, the parameters include a maximum speed limit for the geofenced area. The system may be adapted to automatically generate an alert in response to the delivery vehicle operating outside of the defined parameters. | 06-14-2012 |
20120253550 | DETERMINING SPEED PARAMETERS IN A GEOGRAPHIC AREA - Systems, methods, apparatus, and computer program products are provided for assigning parameters to a geographic area, wherein the parameters may be used to associate a speed limit with the geographic area. For example, in one embodiment, a geofenced area that comprises one or more street segments is identified. Additionally, speed data associated with one of more of the street segments is received. After receiving the speed data, a speed limit is determined for one or more of the street segments and associated with one or more of the street segments. | 10-04-2012 |
20120253861 | SYSTEMS AND METHODS FOR UPDATING MAPS BASED ON TELEMATICS DATA - Various embodiments of the present invention are directed to a mapping management computer system. According to various embodiments, the mapping management computer system may be configured for updating geographical maps by assessing map data and operational data including vehicle telematics data to identify portions of a vehicle path that do not correspond to known travel paths. In various embodiments, the system is configured to define these identified portions as new known travel paths corresponding to a public road, private road, parking lot lane, or the like, and update the map data to reflect the new known travel paths. | 10-04-2012 |
20130030641 | SYSTEMS AND METHODS FOR MANAGING FAULT CODES - Various embodiments of the present invention provide systems and methods for managing fault codes triggered by one or more vehicles during operation. In general, various embodiments of the invention involve recording and analyzing fault codes triggered during a particular time period while a vehicle is in operation. As a result of the analysis, various embodiments of the invention may set a state for each of the identified fault codes, the state indicating a level of action to address the identified fault code. In particular embodiments, the states may be one of a caution state indicating one or more components or sub-systems of the vehicle should be monitored, a critical state indicating one or more components or sub-systems of the vehicle should be repaired, or an environmental state indicating failure or potential failure of one or more components or sub-systems of the vehicle may affect one or more environmental conditions. | 01-31-2013 |
20130151034 | DETERMINING SPEED PARAMETERS IN A GEOGRAPHIC AREA - Systems, methods, apparatus, and computer program products are provided for assigning parameters to a geographic area, wherein the parameters may be used to associate a speed limit with the geographic area. For example, in one embodiment, a geofenced area that comprises one or more street segments is identified. Additionally, speed data associated with one of more of the street segments is received. After receiving the speed data, a speed limit is determined for one or more of the street segments and associated with one or more of the street segments. | 06-13-2013 |
20130154817 | GEOFENCED BASED BACK-UP LIMITS - A computer system that is configured to: (A) define a geofence surrounding a geographic area; (B) gather information associated with the geofenced area; and (C) assign one or more parameters to the geofenced area based on the information gathered, wherein at least one of the assigned parameters is used to monitor the performance of a delivery vehicle driver while the delivery vehicle driver is operating a delivery vehicle within the geofenced area. In particular embodiments, the parameters include a backup limit defining a number of times a delivery vehicle operating within the geofenced area is permitted to back up while operating the delivery vehicle within the geofenced area (e.g., during a particular delivery cycle). In other embodiments, the parameters include a maximum speed limit for the geofenced area. The system may be adapted to automatically generate an alert in response to the delivery vehicle operating outside of the defined parameters. | 06-20-2013 |
20130197776 | SYSTEMS AND METHODS FOR UTILIZING TELEMATICS DATA TO IMPROVE FLEET MANAGEMENT OPERATIONS - According to various embodiments, a fleet management system is provided for capturing, storing, and analyzing telematics data to improve fleet management operations. The fleet management system may be used, for example, by a shipping entity (e.g., a common carrier) to capture telematics data from a plurality of vehicle sensors located on various delivery vehicles and to analyze the captured telematics data. In particular, various embodiments of the fleet management system are configured to analyze engine idle data in relation to other telematics data in order to identify inefficiencies, safety hazards, and theft hazards in a driver's delivery process. The fleet management system may also be configured to assess various aspects of vehicle performance, such as vehicle travel delays and vehicle speeds. These analytical capabilities allow the fleet management system to assist fleet managing entities, or other entities, in analyzing driver performance, reducing fuel and maintenance costs, and improving route planning. | 08-01-2013 |
20130218446 | METHODS, APPARATUSES AND COMPUTER PROGRAM PRODUCTS FOR MEASURING VEHICLE CARBON FOOTPRINT - Systems, methods, apparatuses, and computer program products are provided for determining carbon emissions of one or more vehicles. For instance, in one example embodiment, an apparatus may calculate miles traveled by the vehicles along a predefined route and may calculate a fuel usage of the vehicles for traveling along the route to obtain one or more fuel values. The apparatus may also analyze data indicating the miles traveled and the fuel values to determine fuel efficiency values corresponding to the vehicles traveling the route. The apparatus may also determine an estimate of an amount of carbon emissions for each of the vehicles based in part on applying at least one carbon emission value to respective fuel values associated with corresponding determined fuel efficiency values. | 08-22-2013 |
20150046023 | SYSTEMS AND METHODS FOR MANAGING FAULT CODES - Various embodiments of the present invention provide systems and methods for managing fault codes triggered by one or more vehicles during operation. In general, various embodiments of the invention involve recording and analyzing fault codes triggered during a particular time period while a vehicle is in operation. As a result of the analysis, various embodiments of the invention may set a state for each of the identified fault codes, the state indicating a level of action to address the identified fault code. In particular embodiments, the states may be one of a caution state indicating one or more components or sub-systems of the vehicle should be monitored, a critical state indicating one or more components or sub-systems of the vehicle should be repaired, or an environmental state indicating failure or potential failure of one or more components or sub-systems of the vehicle may affect one or more environmental conditions. | 02-12-2015 |
20150046062 | SYSTEMS AND METHODS FOR UTILIZING TELEMATICS DATA TO IMPROVE FLEET MANAGEMENT OPERATIONS - According to various embodiments, a fleet management system is provided for capturing, storing, and analyzing telematics data to improve fleet management operations. The fleet management system may be used, for example, by a shipping entity (e.g., a common carrier) to capture telematics data from a plurality of vehicle sensors located on various delivery vehicles and to analyze the captured telematics data. In particular, various embodiments of the fleet management system are configured to analyze engine idle data in relation to other telematics data in order to identify inefficiencies, safety hazards, and theft hazards in a driver's delivery process. The fleet management system may also be configured to assess various aspects of vehicle performance, such as vehicle travel delays and vehicle speeds. These analytical capabilities allow the fleet management system to assist fleet managing entities, or other entities, in analyzing driver performance, reducing fuel and maintenance costs, and improving route planning. | 02-12-2015 |