Design of a modular mobile robot

Burke, Thomas P. H.

January 1994

No description available.

629.892

Autonomous Guided Vehicle; WMRs

Adaptive motion control for a four wheel steered mobile robot

Plantenberg, Detlef Holger

January 2000

For adaptive motion control of an autonomous vehicle, operating in a generally structured environment, position and velocity feedback are required to ascertain the vehicle location relative to a reference. Whilst the literature offers techniques for guiding vehicles along external references, autonomous vehicles should be able to navigate between despatch locations without the need to rely on external guidance systems. Considerations of the vehicle stability and manoeuvrability favour a vehicle design with four independently steered wheels. A new motion control methodology has been proposed which utilises the geometric relationship of the angular displacements and the rotations of the wheels to estimate the longitudinal and lateral motions of the vehicle. The motion controller consists of three building blocks: the motion control system comprising the position tracking and the motion command generation; the electronic system comprising a data acquisition system and proprietary power electronics; the mechanical system which includes an undercarriage enabling permanent contact of the wheels with the floor. The components have been designed not only to perform optimally in their specific functions but also to ensure full compatibility within the integrated system. For reliable deduction of the wheel rotations with a high degree of accuracy a dedicated data acquisition interface has been developed, which enables data to be captured in parallel from four optical encoders mounted directly on the wheel axles. Parallel sampling of the angular wheel position and parallel actuation of all steering motors improves the accuracy of the system state and gives a higher degree of certainty. Considering only circular motion of the vehicle, a method for calculating the steering angles and wheel speeds based on the complex notation is presented. By cumulating the displacement vectors of the vehicle motion and the location of the centre of rotation between consecutive samples of the controller, the path of the vehicle is estimated. The difference between the nominal and the deduced centre of rotation is determined to minimise deviations from the reference trajectory and to allow the controller to adapt to changes in the road/tyre interface characteristics. The individual mechanical and electronic components have been assembled and tested. Additionally, the performance of the electronic interface has been evaluated on a purpose built test-bed. For the experimental validation of the methodology, a simple method of mapping the centre of curvature with a pen mounted at the nominal centre of rotation has been proposed. Experiments have been conducted with both the steering angles fixed to their theoretical values for the nominal centre of rotation and with the proportional steering controller enabled. The results from the latter method have shown a significantly reduced deviation from the nominal centre of rotation. The data captured of the angular wheel positions and steering angle settings has been analysed off-line. Good agreement is obtained between the deduced and the actual centres of rotation for the measurements averaged over 1.5 seconds. A number of different centres of rotation have been investigated and the required steering angles to compensate for the deviation have been plotted to form a control surface for the motion controller. The deviation between the estimated and the actual centre of curvature was less than 1.6% and adequate results could be obtained with the proportional steering controller.

629.892

DataMart for an Autonomous Guided Vehicle Using ColdFusion

RAVINDRAN, RAMYA

11 October 2001

No description available.

Engineering, Industrial

datamart

autonomous guided vehicle

UC Robot Team

coldfusion

Pathfinder : Autonomous Guided Vehicle using Infrared Light

Nordström, Oskar, Axelsson, Alexander

January 2018

I världen växer forskning på självgående fordon dagligen.Målet med detta projekt var att skapa ett självgåendefordon och utforska möjligheterna att använda infrarödareflektioner som navigeringsmetod och hur man kanuppnå distinkta mätvärden. Avhandlingen diskuterar ävenmöjligheterna att använda flera prototyper i en störreskala. Under projektets gång byggdes ett prototypfordonför att genomföra experimenten angående lämplighetenmed navigering via infrarött ljus. Tester med prototypenvisar att navigering via infrarött ljus är väldigt pålitligtunder kontrollerade omständigheter. Projektet utforskaräven hur hierarkisk mjukvaruarkitektur står sig mot heltlokal eller centraliserad mjukvaruarkitektur. / In the world, research on autonomous navigation vehicles(AGV) is growing by the day. The goal with this projectwas to create an AGV and explore the possibility of usinginfrared reflections as a navigational method and how toachieve distinct reflection measurements from a surface.The thesis also discusses the possibility of using severalunits on a larger scale. In the progress of the project, aprototype vehicle was built to conduct the experiments toidentify the suitability of infrared navigation. The testingof the prototype shows that navigation by IR can be veryreliable under controlled circumstances. The project alsoexplored how hierarchical software architecture stands incomparison to purely local or centralized software architecture.

Mechatronics

Software architecture

Autonomous guided vehicle

Breadth-first Search

Mekatronik

Mjukvaruarkitektur

Autonomt styrt fordon

Bredden-först-sökning

Mechanical Engineering

Maskinteknik

Pathfinder : Autonomous Guided Vehicle using Infrared Light

Nordström, Oskar, AXELSSON, ALEXANDER

January 2018

In the world, research on autonomous navigation vehicles (AGV) is growing by the day. The goal with this project was to create an AGV and explore the possibility of using infrared reflections as a navigational method and how to achieve distinct reflection measurements from a surface. The thesis also discusses the possibility of using several units on a larger scale. In the progress of the project, a prototype vehicle was built to conduct the experiments to identify the suitability of infrared navigation. The testing of the prototype shows that navigation by IR can be very reliable under controlled circumstances. The project also explored how hierarchical software architecture stands in comparison to purely local or centralized software architecture. / I världen växer forskning på självgående fordon dagligen. Målet med detta projekt var att skapa ett självgående fordon och utforska möjligheterna att använda infraröda reflektioner som navigeringsmetod och hur man kan uppnå distinkta mätvärden. Avhandlingen diskuterar även möjligheterna att använda flera prototyper i en större skala. Under projektets gång byggdes ett prototypfordon för att genomföra experimenten angående lämpligheten med navigering via infrarött ljus. Tester med prototypen visar att navigering via infrarött ljus är väldigt pålitligt under kontrollerade omständigheter. Projektet utforskar även hur hierarkisk mjukvaruarkitektur står sig mot helt lokal eller centraliserad mjukvaruarkitektur.

Mechatronics

Software architecture

Autonomous guided vehicle

Breadth-first Search

Mekatronik

Mjukvaruarkitektur

Autonomt styrt fordon

Bredden-först-sökning

Mechanical Engineering

Maskinteknik

Engineering and Technology

Teknik och teknologier

A Navigation Subsystem for an Autonomous Robot Lawn Mower

Hughes, Bradley Evan

19 September 2011

No description available.

Computer Engineering

Electrical Engineering

Robotics

Robots

mobile robot

autonomous guided vehicle

global positioning system

navigation system

control system

robot lawn mower

consumer product automation

low cost navigation