10 ROMANIAN BOOKS RELATING TO «A ROBOTÍ»
Discover the use of
a robotí in the following bibliographical selection. Books relating to
a robotí and brief extracts from same to provide context of its use in Romanian literature.
1
Robotics Research: The 14th International Symposium ISRR
The computation of the controller requires that robot i knows the states of all the robots in the network. For this to be feasible there must either be a global supervisor or a fully connected network communication topology. It would be more useful ...
Cédric Pradalier, Roland Siegwart, Gerhard Hirzinger, 2011
2
Bolile cardiovasculare la vârstnici
Asistenţa socială cu ajutorul roboticii Există mai multe tipuri de roboţi cu rol în asistenţa socială, cu funcţii diferite. A. Roboţi cu rol predominant în reabilitare, cum ar fi: ‒ ajutorul de mers (assistive robotive walker), cu rol de susţinere şi creare a ...
Florin Mitu, Ioana Dana Alexa, Viviana Aursulesei, 2015
3
Dicṭionarul limbii romîne moderne - Pagina 723
ROBOTE AL A, robouli, s. f. Faptul de a roboti; munci mărunţi pe lingi gospodine. ROBOTI, robotesc, vb. IV. Intram. 1. A munci din greu. 2. A trebalui. — Din roboti. ROBOTIT s. n. Acţiunea de a roboti. ROBURlT s. n. Substanţă explozibili ...
Dimitrie Macrea, Institutul de Lingvistică din București, 1958
4
Jukebox and robotic libraries for computer mass storage - Pagina xi
Today, the term mass storage system usually implies a roboti- cally controlled tape or disk library device or jukebox which is itself managed by a file server. Low-end systems are used to back up PC/ workstation LANs; high-end mass storage ...
5
Mic dicționar enciclopedic - Pagina 1463
Fig. Persoană care munceşte mecanic. noecrră (< si.) i. r. 1. (ln ev. mac. in Transilvania) Denumire a obligaţiei in muncă a lobagilor şi a jelerilor către stăpinul feudal. 2. Muncă. trudă. noao'rci_\LÅ (<r°b¢u) s.f. Faptul de a roboti; treburi mărunte ...
6
Symbiotic Multi-Robot Organisms: Reliability, ... - Pagina 64
It is clear that only the robots close enough will have a chance of moving into roboti's collision area (within radius Ra, marked C in Fig. 1.22), and thus drive roboti to change to state avoidance. For instance, as shown in Fig. 1.22, robotA may ...
Paul Levi, Serge Kernbach, 2010
7
Distributed Evolution for Swarm Robotics - Pagina 98
Suranga D. Hettiarachchi. Robots that are left behind (due to obstacle cul-de-sacs) do not proceed to the next goal, but robots that collide with obstacles and make it to the goal are allowed to proceed to the next goal. We assume that damaged ...
Suranga D. Hettiarachchi, 2007
8
Distributed Autonomous Robotic Systems 3 - Pagina 31
£al of robot: 4.0 [m] Start of roboti Start of retir: mid and R ficial of robot: final of robotá Trajectory £f roboti Roboti (a) Environment of experiment (b) Experimental result Figure 9 Collision avoidance experiment using real robots sampling cycle is ...
Tim Lueth, Rüdiger Dillmann, Paolo Dario, 2012
9
Distributed Autonomous Robotic Systems 2 - Pagina 275
4.2 Model of Sensing Here, we consider sensing of roboti. So, the superscript and subscript "i" in the following formulas is relative to roboti. When a robot completed a sensing action, two situations are considered to model the completed ...
Hajime Asama, Toshio Fukuda, Tamio Arai, 2013
10
Distributed Autonomous Robotic Systems: The 11th ... - Pagina 153
In this case, vi, and oil are the forward and rotational velocities of the "robot, respectively, and serve as the robot control inputs. xit #1 = xi.; H via cos(61)At (2) yi, 1 = yj + via sin(61)At (3) 6, 11 = 64-H (Oil At (4) To facilitate control with respect to ...
M. Ani Hsieh, Gregory Chirikjian, 2014