Functional Requirements For Integrated Vehicle Based Safety System Ivbss Light Vehicle Platform

Functional Requirements for Integrated Vehicle-based Safety System (IVBSS) Light Vehicle Platform

Author :

Publisher :

Page : pages

File Size : 17,39 MB

Release : 2008

Category :

ISBN :

Get eBook

Book Description

The purpose of the Integrated Vehicle-Based Safety System (IVBSS) project is to evaluate the potential safety benefits and driver acceptance of an integrated set of crash-warning technologies installed on both heavy truck and light vehicle platforms. IVBSS is an integrated set of technologies that is intended to help the driver avoid road-departure, rear-end, and lane-change crashes by providing occasional crash alerts and advisories to enhance the driver’s awareness of the driving situation. This document proposes functional requirements for the system to be developed and field-tested on the light vehicle platform. These requirements are generated solely for the system created within this project, and are not intended to be prescriptive for integrated crash systems developed outside the project. The light vehicle platform encompasses passenger vehicles including sedans, sport-utility vehicles, light trucks, minivans, and vans. The IVBSS on the light vehicle platform addresses the following crash types: • Road departures due to unintended lateral drift, • Road departures due to travel through curves at excessive speeds, • Rear-end crashes, and• Lane-change and merge crashes due to unsafe lane movements.



Functional Requirements for Integrated Vehicle-Based Safety Systems (IVBSS)

Author :

Publisher :

Page : 46 pages

File Size : 41,87 MB

Release : 2008

Category : Motor vehicles

ISBN :

Get eBook

Book Description

The purpose of the Integrated Vehicle-Based Safety System (IVBSS) project is to evaluate the potential safety benefits and driver acceptance of an integrated set of crash-warning technologies installed on both heavy truck and light vehicle platforms. IVBSS is an integrated set of technologies that is intended to help the driver avoid road-departure, rear-end, and lane-change crashes by providing occasional crash alerts and advisories to enhance the drivers awareness of the driving situation. This document proposes functional requirements for the system to be developed and field-tested on the light vehicle platform. These requirements are generated solely for the system created within this project, and are not intended to be prescriptive for integrated crash systems developed outside the project. The light vehicle platform encompasses passenger vehicles including sedans, sport-utility vehicles, light trucks, minivans, and vans. The IVBSS on the light vehicle platform addresses the following crash types: (1) Road departures due to unintended lateral drift, (2) Road departures due to travel through curves at excessive speeds, (3) Rear-end crashes, and (4) Lane-change and merge crashes due to unsafe lane movements.



雷祖志

Author :

Publisher :

Page : pages

File Size : 12,77 MB

Release : 1885

Category :

ISBN :

Get eBook

Book Description



Functional Requirements for Integrated Vehicle Based Safety System (IVBSS) - Heavy Truck Platform

Author :

Publisher :

Page : pages

File Size : 47,8 MB

Release : 2008

Category :

ISBN :

Get eBook

Book Description

The purpose of the Integrated Vehicle-Based Safety System (IVBSS) project is to evaluate the potential safety benefits and driver acceptance of an integrated set of crash-warning technologies installed on both heavy truck and light vehicle platforms. IVBSS is an integrated set of technologies that is intended to help the driver avoid road-departure, rear-end, and lane-change crashes by providing occasional crash alerts and advisories to enhance the driver’s awareness of the driving situation. This document proposes functional requirements for the system to be developed and field-tested on the heavy truck platform. These requirements are generated solely for the system created within this project, and are not intended to be prescriptive for integrated crash systems developed outside the project. The heavy truck platform encompasses class 8 trucks operating with one trailer or without a trailer. The IVBSS on the heavy truck platform addresses the following crash types: · Road departures due to unintended lateral drift, · Rear-end crashes, and· Lane-change and merge crashes due to unsafe lane movements by the heavy truck.



Integrated Vehicle-Based Safety Systems Light Vehicle Platform Field Operational Test Data Analysis Plan

Author :

Publisher :

Page : 92 pages

File Size : 47,5 MB

Release : 2009

Category : Motor vehicles

ISBN :

Get eBook

Book Description

This test plan documents the procedures that were used to verify that the Integrated Vehicle-Based Safety Systems (IVBSS) light vehicle platform met all its performance requirements. The document was prepared by Visteon Corporation in collaboration with the U.S. Department of Transportation (U.S. DOT) and the National Institute of Standards and Technology (NIST). The test procedures described in this document were used to assess whether the prototype light vehicle integrated system performed as intended and meets its performance requirements. These tests were also used to identify areas for system improvement to ensure system repeatability, robustness and readiness. The test plan describes each of the test procedures and includes the following details: (1) Test scenarios and conditions (e.g., speeds, closing speeds, road geometry, etc.); (2) Procedures and protocols to run the tests; (3) Pass/Fail criteria for determining repeatability and robustness; and (4) Performance metrics or measurement variables that were used to evaluate system performance when compared to an independent measurement system.



System Performance Guidelines for a Prototype Integrated Vehicle-Based Safety System (IVBSS) Heavy Truck Platform

Author :

Publisher :

Page : 17 pages

File Size : 37,1 MB

Release : 2008

Category : Trucks

ISBN :

Get eBook

Book Description

The purpose of the Integrated Vehicle-Based Safety System (IVBSS) project is to evaluate the potential safety benefits and driver acceptance of an integrated set of crash-warning technologies installed on both light-vehicle and heavy-truck platforms. The IVBSS is an integrated set of technologies that is intended to help the driver avoid crashes by providing crash alerts in potential crash-imminent situations and advisories to enhance the driver's awareness of the driving situation.This report proposes quantitative and measurable performance metrics that are considered achievable and appropriate for the IVBSS system on a heavy truck (Class 8). The guidelines build upon previous project reports that present functional requirements. This effort also borrows from previous specification efforts for stand-alone crash warning systems - especially prior U.S. DOT projects and ISO standards efforts. However the focus is on the integration of these functions. In some performance areas, integration allows improvements in potential safety benefits through enhanced system awareness. In other areas, integration presents a challenge, especially in ensuring driver acceptance because the broad scope of IVBSS means more potential sources of false or nuisance alerts.





Integrated Vehicle-Based Safety Systems (IVBSS)

Author :

Publisher :

Page : 84 pages

File Size : 10,61 MB

Release : 2008

Category : Motor vehicles

ISBN :

Get eBook

Book Description

This document presents the plan for conducting a field operational test (FOT) of the Integrated Vehicle-Based Safety Systems (IVBSS) program. The plan describes the work that will be performed by the University of Michigan Transportation Research Institute using 16 passenger cars and 10 commercial trucks equipped with an integrated crash avoidance system. The purpose of the IVBSS program is to evaluate the suitability of a state-of-the-art integrated crash warning system for widespread deployment in the U.S. passenger car and commercial truck fleet. Both platforms have three integrated crash-warning subsystem systems (forward crash, lateral drift, and lane-change/merge warnings); the light-vehicle platform also has a fourth subsystem, curve-speed warning. For the light vehicle portion of the FOT, lay drivers will operate test vehicles in place of their own personal cars for a period of six weeks. Commercial-truck drivers from a commercial fleet will operate heavy trucks in place of the Class 8 tractors they normally use as their work vehicles. All vehicles will be instrumented to capture information regarding the driving environment, driver activity, system behavior, and vehicle kinematics. Driver information will be captured through a series of subjective questionnaires, focus groups, and debriefing sessions to determine driver acceptance and to gain insight for improving future versions of integrated crash warning systems.



Integrated Vehicle-Based Safety Systems Preliminary Field Operational Test Plan

Author :

Publisher :

Page : 84 pages

File Size : 34,29 MB

Release : 2008

Category : Motor vehicles

ISBN :

Get eBook

Book Description

This document presents the plan for conducting a field operational test (FOT) of the Integrated Vehicle-Based Safety Systems (IVBSS) program. The plan describes the work that will be performed by the University of Michigan Transportation Research Institute using 16 passenger cars and 10 commercial trucks equipped with an integrated crash avoidance system. The purpose of the IVBSS program is to evaluate the suitability of a state-of-the-art integrated crash warning system for widespread deployment in the U.S. passenger car and commercial truck fleet. Both platforms have three integrated crash-warning subsystem systems (forward crash, lateral drift, and lane-change/merge warnings); the light-vehicle platform also has a fourth subsystem, curve-speed warning. For the light vehicle portion of the FOT, lay drivers will operate test vehicles in place of their own personal cars for a period of six weeks. Commercial-truck drivers from a commercial fleet will operate heavy trucks in place of the Class 8 tractors they normally use as their work vehicles. All vehicles will be instrumented to capture information regarding the driving environment, driver activity, system behavior, and vehicle kinematics. Driver information will be captured through a series of subjective questionnaires, focus groups, and debriefing sessions to determine driver acceptance and to gain insight for improving future versions of integrated crash warning systems.



Integrated Vehicle-based Safety Systems Light-vehicle Field Operational Test Key Findings Report

Author :

Publisher :

Page : 118 pages

File Size : 15,72 MB

Release : 2011

Category :

ISBN :

Get eBook

Book Description

This document presents key findings from the light-vehicle field operational test conducted as part of the Integrated Vehicle-Based Safety Systems program. These findings are the result of analyses performed by the University of Michigan Transportation Research Institute to examine the effects of a prototype integrated crash warning system on driving behavior and driver acceptance. The light-vehicle platform included four integrated crash-warning subsystems (forward-crash, lateral-drift, lane-change/merge crash, and curve-speed warnings) installed on a fleet of 16 passenger cars and operated by 108 randomly-sampled drivers for a period of six weeks each. Each car was instrumented to capture detailed data on the driving environment, driver behavior, warning system activity, and vehicle kinematics. Data on driver acceptance was collected through a post-drive survey, debriefings and focus groups. Key findings indicate that use of the integrated crash warning system resulted in improvements in lane-keeping, fewer lane departures, and increased turn-signal use. The research also indicated that drivers were slightly more likely to maintain shorter headways with the integrated system. No negative behavioral adaptation effects were observed as a result of drivers' involvement in secondary task behaviors. Drivers generally accepted the integrated crash warning system and 72 percent of all drivers said they would like to have an integrated warning system in their personal vehicles. Drivers also reported that they found the blind-spot detection component of the lane-change/merge crash warning system to be the most useful and satisfying aspect of the integrated system.