Adaptive Vehicle Make
Encyclopedia
Adaptive Vehicle Make is a portfolio of programs overseen by the Defense Advanced Research Projects Agency (DARPA), of the United States Department of Defense
. AVM attempts to address revolutionary approaches to the design, verification, and manufacturing of complex defense systems and vehicles. The three primary programs are META, Instant Foundry Adaptive through Bits (iFAB) and Fast Adaptable Next-Generation Ground Vehicle (FANG GV) programs. Many components of the program leverage crowdsourcing
and will be open source
and the ultimate intent is to crowdsource a next generation combat vehicle
. The program is managed by Paul Eremenko and Nathan Wiedenman under DARPA's Tactical Technology Office. A Proposer's Day was held and several Broad Agency Announcements released on 7 October 2010.
This is a costly approach, especially compared with something like chip production. Intel, for instance, has an excellent track record in getting systems right in the design phase so that extensive testing and integration are not needed. This "correct-by-construction" methodology is powerful and would not be possible without high-level design languages to support validation and verification. The goal of the AVM program is to move to this model for building large, complex, heterogeneous cyber-mechanical systems for increased cost and schedule efficiencies.
Fast Adaptable Next-Generation Combat Vehicle
The Fast Adaptable Next-Generation Ground Vehicle (FANG GCV) attempts to crowdsource
the design of a Infantry Fighting Vehicle
culminating in infantry fighting vehicle
prototypes. Participants will use the META metalanguage with the option to use Vehicleforge.
The program occurs in three phases. The Mobility/Drivetrain Challenge lasts nine months and begins in mid-2012. A prize of $.5–1 million will be awarded for the winning design. The Chassis/Integrated Survivability Challenge lasts nine months and begins in the beginning of 2013 concurrent to the Mobility/Drivetrain Challenge. A prize of $.5–1 million for the winning design(s) will be awarded. The third challenge, the Total Platform Challenge lasts 15 months and begins in late 2013. A prototype will be completed that could potentially compete with TACOM's GCV. The vehicle's design itself would be open source.
will be distributed. Schools will compete in prize challenges for design of moderately complex systems. The effort begins in 2011 and will attempt to reach 10 schools in its second year, 100 schools in its third, and 1,000 schools in its fourth.
United States Department of Defense
The United States Department of Defense is the U.S...
. AVM attempts to address revolutionary approaches to the design, verification, and manufacturing of complex defense systems and vehicles. The three primary programs are META, Instant Foundry Adaptive through Bits (iFAB) and Fast Adaptable Next-Generation Ground Vehicle (FANG GV) programs. Many components of the program leverage crowdsourcing
Crowdsourcing
Crowdsourcing is the act of sourcing tasks traditionally performed by specific individuals to a group of people or community through an open call....
and will be open source
Open source
The term open source describes practices in production and development that promote access to the end product's source materials. Some consider open source a philosophy, others consider it a pragmatic methodology...
and the ultimate intent is to crowdsource a next generation combat vehicle
Combat vehicle
A combat vehicle, also known as a ground combat vehicle, is a self-propelled, weaponized military vehicle used for combat operations. Combat vehicles can be wheeled or tracked.- Automation :...
. The program is managed by Paul Eremenko and Nathan Wiedenman under DARPA's Tactical Technology Office. A Proposer's Day was held and several Broad Agency Announcements released on 7 October 2010.
Background
A frequently cited criticism of the DoD is the expensive and often inefficient way that it buys and builds new things. The scope of this process can be seen in the Integrated Defense Acquisition, Technology, & Logistics Life Cycle Management Framework. One of the big challenges associated with these processes is the craftsmen-like nature of building these complex cyber-mechanical systems. A typical approach is to break the system into subsystems and have separate teams embark on building the individual subsystems and optimize them for Size, Weight, and Power. Once the subsystems reach a reasonable level of development, an integration effort takes place to tie the subsystems together. The system is then tested against requirements which are almost never met on the first integration-testing cycle. The steps will then be iterated until the system meets its requirements.This is a costly approach, especially compared with something like chip production. Intel, for instance, has an excellent track record in getting systems right in the design phase so that extensive testing and integration are not needed. This "correct-by-construction" methodology is powerful and would not be possible without high-level design languages to support validation and verification. The goal of the AVM program is to move to this model for building large, complex, heterogeneous cyber-mechanical systems for increased cost and schedule efficiencies.
META
The Goal of META is to analyse interactions between components and provide verification and validation (V&V) of designs without prototyping in order to shorten development time. META will develop new languages or language extensions that encapsulate sufficient complexity to compile a component library, context library, and manufacturing library for this type of analysis and certification. META I began in mid-2010 and is scheduled to last 15 months. META II begins in late 2010 and lasts 12 months. An infantry fighting vehicle library will be compiled in late 2011 and will continue for 1.5 years.C2M2L
A series of solicitations to build the Component, Context, and Manufacturing Library (C2M2L, pronounced "camel") are being introduced. The first of these will be introduced in mid-2011 and will be focused around drivetrains. Labeled C2M2L-1, the draft BAA is under development by the program office which is soliciting remarks from participants at all levels, including a live IRC session using the #avm channel on freenode.Instant Foundry Adaptive through Bits
Instant Foundry Adaptive through Bits (iFAB) attempts to design a manufacturing facility that can fabricate vehicles and can be reconfigured to manufacture other systems. The facility would be capable of manufacturing the FANG vehicle. iFAB looks to lay the groundwork for development of a foundry-style manufacturing capability - taking as input a verified system design specified in an appropriate metalanguage - capable of rapid reconfiguration to accommodate a wide range of design variability and specifically targeted at the fabrication of military ground vehicles.Fast Adaptable Next-Generation Ground Vehicle
Fast Adaptable Next-Generation Ground Vehicle is a portfolio of three loosely related projects.Fast Adaptable Next-Generation Combat Vehicle
The Fast Adaptable Next-Generation Ground Vehicle (FANG GCV) attempts to crowdsource
Crowdsourcing
Crowdsourcing is the act of sourcing tasks traditionally performed by specific individuals to a group of people or community through an open call....
the design of a Infantry Fighting Vehicle
Infantry fighting vehicle
An infantry fighting vehicle , also known as a mechanized infantry combat vehicle , is a type of armoured fighting vehicle used to carry infantry into battle and provide fire support for them...
culminating in infantry fighting vehicle
Infantry fighting vehicle
An infantry fighting vehicle , also known as a mechanized infantry combat vehicle , is a type of armoured fighting vehicle used to carry infantry into battle and provide fire support for them...
prototypes. Participants will use the META metalanguage with the option to use Vehicleforge.
The program occurs in three phases. The Mobility/Drivetrain Challenge lasts nine months and begins in mid-2012. A prize of $.5–1 million will be awarded for the winning design. The Chassis/Integrated Survivability Challenge lasts nine months and begins in the beginning of 2013 concurrent to the Mobility/Drivetrain Challenge. A prize of $.5–1 million for the winning design(s) will be awarded. The third challenge, the Total Platform Challenge lasts 15 months and begins in late 2013. A prototype will be completed that could potentially compete with TACOM's GCV. The vehicle's design itself would be open source.
vehicleforge.mil
The vehicleforge.mil program will attempt to provide the necessary infrastructure for sharing design files among distributed design teams. Similar approaches in software have proven very successful for collaboration and innovation, such as the "clone-and-own" paradigm commonly used on sites like github.com and sourceforge.net. vehicleforge.mil will be built on a 12-month contract cycle starting in mid-2011 and will have a minimum additional three years of support. All resultant infrastructure components will be released under an open source license.Manufacturing Experimentation and Outreach (MENTOR)
Manufacturing Experimentation and Outreach (MENTOR) facilitates collaboration among high school-aged students. MENTOR will provide materials for high school-aged students to utilize. Up to 1,000 3D printers3D printing
3D printing is a form of additive manufacturing technology where a three dimensional object is created by laying down successive layers of material. 3D printers are generally faster, more affordable, and easier to use than other additive manufacturing technologies. However, the term 3D printing is...
will be distributed. Schools will compete in prize challenges for design of moderately complex systems. The effort begins in 2011 and will attempt to reach 10 schools in its second year, 100 schools in its third, and 1,000 schools in its fourth.