Self-reconfiguring modular robot: Difference between revisions

In some cases this involves each module having 2 or more connectors for connecting several together. They can contain [[electronics]], [[sensor]]s, [[computer processor]]s, [[memory]] , and [[power supplies]]; they can also contain [[actuator]]s that are used for manipulating their ___location in the environment and in relation towithwith each other. A feature found in some cases is the ability of the modules to automatically connect and disconnect themselves to and from each other, and to form into many objects or perform many tasks moving or manipulating the environment.

By saying "self-reconfiguring" or "self-reconfigurable" it means that the mechanism or device is capable of utilizing its own system of control such as with actuators or [[stochastic]] means to change its overall structural shape. Having the quality of being "modular" in "self-reconfiguring modular robotics" is to say that the same module or set of modules can be added to or removed from the system, as opposed to being generically "modularized" in the broader sense. The underlying intent is to have an indefinite number of identical modules, or a finite and relatively small set of identical modules, in a mesh or matrix structure of self-reconfigurable modules.

Self-reconfiguration is different from the concept of [[self-replication]], which is not a quality that a self-reconfigurable module or collection of modules needs to possess. A matrix of modules does not need to be able to increase the number quantity of modules in its matrix to be considered self-reconfigurable. It is sufficient for self-reconfigurable modules to be produced at a conventional factory, where dedicated machines stamp or mold components that are then [[Assembly line|assembled]] into a module, and added to an existing matrix in order to supplement it to increase the quantity or to replace worn- out modules.

A matrix made up of many modules can separate to form multiple matrices with fewer modules, or they can combine, or recombine, to form a larger matrix. Some advantages of separating into multiple matrices include the ability to tackle multiple and simpler tasks at locations that are remote from each other simultaneously, transferring through barriers with openings that are too small for a single larger matrix to fit through but not too small for smaller matrix fragments or individual modules, and energy saving purposes by only utilizing enough modules to accomplish a given task. Some advantages of combining multiple matrices into a single matrix are theis ability to form larger structures such as an elongated bridge, more complex structures such as a robot with many arms or an arm with more degrees of freedom, and increasing strength. Increasing strength, in this sense, can be in the form of increasing the rigidity of a fixed or static structure, increasing the net or collective amount of force for raising, lowering, pushing, or pulling another object, or another part of the matrix, or any combination of these features.

There are two basic methods of segment articulation that self-reconfigurable mechanisms can utilize to reshape their structures: chain reconfiguration and lattice reconfiguration. BBC works in the of life.