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Autonomous Systems, 2017

2017-03-28
With a mandate in Europe for autonomous emergency braking systems, there is a development happening with radar and camera based systems to do collision mitigation. The challenges include robust object tracking, stationary object detection, reactions for false positives, etc. The developments and challenges in the collision mitigation technology are included in this collection.
Standard

Integration of Battery Pack Systems in Bus Electrification

2016-08-01
WIP
J3125
a) Creation of a standard specific to integration of energy storage systems into electrification of buses of all types which comprehends safety, performance, life and cost considerations utilizing worldwide standards as references in order to maximize existing work. The document applies to both purpose built electric buses and retrofit electrified buses. b) Harmonization of these existing standards achieve specific objectives that provide guidance in effective and safe designs of electrificed buses which utilize battery pack systems as the energy storage device. c) Future Considerations
Standard

Automated Driving Reference Architecture

2016-02-04
WIP
J3131
SAE J3131 defines an automated driving reference architecture that contains functional modules supporting future application interfaces for Levels 3 through 5 (J3016). The architecture will model scenario-driven functional and nonfunctional requirements, automated driving applications, functional decomposition of an automated driving system, and relevant functional domains (i.e., functional groupings). Domains include, but are not limited to, automated driving (i.e., automation replacing the human driver), by-wire and active safety, and those related to automated recovery from faults and system failures (e.g., system bringing the vehicle to a safe state). The architecture will address Tier 1 and Tier 2 functional groupings. The document will include one example instantiation being divides the functionality into two functionality groupings, and will detail the functional and information interface between the groups.
Standard

Automotive Cybersecurity Integrity Level (ACsIL)

2016-06-15
WIP
J3061-1
Review existing classification schemes from other industries and existing ideas that were presented at SAE or that may be being proposed or used in other organizations. Determine to use either an existing scheme or create a new classification scheme specific for the automotive industry from the existing or proposed methods or ideas (an integration or merging of the ideas). A Threat Analysis and Risk Assessment Method that would work with the classification scheme or from which we could map into a specific level in the cybersecurity integrity classification scheme a. This will require reviewing existing TARA methods and deciding on one or a tailored version of one Determine how to relate the ACSIL for safety-related threats to the ASIL from ISO 26262
Standard

Conformance Test Cases

2008-08-04
WIP
J2534/3
The purpose of this document is to define tests necessary to verify that an SAE J2534-1 interface device meets all the requirements specified in SAE J2534-1: Recommended Practice for Pass-Thru Vehicle Programming. Recent Activity Date Type
Standard

E/E Diagnostic Test Modes

2017-05-19
WIP
J1979-2
SAE J1979/ISO 15031-5 set includes the communication between the vehicle's OBD systems and test equipment implemented across vehicles within the scope of the legislated emissions-related OBD.
Standard

SAE-1001 Application Guide

2018-10-23
WIP
SAE1001/1
The Application Guide will provide additional information on the application and use of SAE1001, including different development approaches, specialties and domains, as well as scalability to different project and system scope. (SAE-1001/1 - Information Report)
Standard

Standard Practice for Habitability

2018-08-14
WIP
SAE1007
The Habitability standard practice identifies the recommended approach for conducting Habitability activities in support of system acquisition programs. This standard covers all aspects of the physical environment that people inhabit, for work, or other purpose. It includes adequate space and environmental/temperature controls and, if appropriate, requirements for personnel services (e.g., medical, dental and mess) and living conditions (e.g., berthing and personal hygiene) that have a direct impact on meeting or sustaining system performance/effectiveness or that have such an adverse impact on safety, health, comfort, quality of life and morale that recruitment or retention is degraded. It includes analysis, modeling and simulation, design, and verification of Habitability requirements and processes.
Standard

Model Based Functional Safety

2018-05-17
WIP
SAE1005
Provides standard guidance on major tasks and activities and how to implement and manage Functional Safety and software system safety aspects of Model Based System Engineering (MBSE). Process focus is on safety-critical functions (SCF) of complex software intensive systems being modeled and depicted graphically as part of MBSE and software engineering to ensure safety engineering aspects are tracked and captured as part of models to enhance safety documentation and produce objective safety evidence.
Standard

Design For Maintainer (DFM) Process Standard

2018-08-14
WIP
SAE1009
The Design for Maintainer (DFM) standard identifies the recommended approach for conducting Design for Maintainability activities in support of system acquisition programs. The standard identifies general requirements and processes of a successful DFM program during concept and design development to ensure the lowest possible ownership costs. This standard provides specific detailed contractor requirements for DFM activities inclusive of the Human Engineering domain. The standard is consistent with MIL-STD-46855 and SAE 6906 Human Systems Integration. And DFM standard practices support performance of activities in coordination with other associated disciplines such as maintainability, supportability, and integrated logistics.
Standard

Standard Practice for Force Protection and Survivability (FP&S)

2018-08-14
WIP
SAE1008
The Protection and Survivability (FP&S) standard practice identifies the recommended approach for conducting FP&S activities in support of system acquisition programs. This standard covers FP&S processes throughout system conceptualization, design, development, verification, production, use and disposal. FP&S includes analysis, modeling and simulation, design and verification of system-related survivability characteristics and processes designed to protect personnel from direct threats and accidents, including primary and secondary effects from the events.
Standard

Standard Practice for Personnel

2018-08-14
WIP
SAE1006
The Personnel standard practice identifies the recommended approach for conducting Personnel activities in support of system acquisition programs. This standard covers Personnel processes throughout system conceptualization, design, development, verification, production, use and disposal. Personnel addresses skills, grades, aptitudes, physical attributes and education and training backgrounds of military and civilian personnel required to operate, maintain, train and support the system equipment and associated support equipment and facilities in its operational environment. It includes analysis, modeling and simulation, design support and verification of Personnel estimates and requirements.
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