Integrated Bistable Modules for Frugal Discrete Miniature Robots
- Ente
- Laboratory of Computer Science, Robotics and Microelectronics of Montpellier (LIRMM) and Alternative Energies and Atomic Energy Commission (CEA)
- Paese
- Francia
- Campo di ricerca
- Engineering Physics
- Lingua dell’annuncio
- Inglese
- Tipo di contratto
- Temporary
- Profilo ricercato
- Ricercatore in robotica
- Sede
- Montpellier, Francia
- Pubblicato il
- —
- Scadenza
- 16 agosto 2026
Descrizione
Integrated Bistable Modules for Frugal Discrete Miniature Robots Sintesi in italiano (traduzione automatica): L'organizzazione internazionale offre un dottorato di ricerca focalizzato sulla progettazione e validazione di moduli bistabili per robotica miniaturizzata. Il ruolo prevede la ricerca e lo sviluppo di metodologie per la progettazione, modellazione e controllo di robot frugali, con particolare attenzione all'ottimizzazione energetica e all'integrazione di sensori. La sede del progetto non è specificata. I candidati devono avere una laurea in ingegneria meccanica, ingegneria elettronica o un campo correlato. Le mansioni principali includono la caratterizzazione sperimentale dei moduli, l'analisi dinamica e l'implementazione di strategie di controllo discrete. Si richiede una forte attitudine alla ricerca e competenze in modellazione e fabbricazione di strutture bistabili. Context and Motivations Miniature robotics at the meso scale opens new perspectives for applications in constrained environments, such as intra- or extra tubular inspection, minimally invasive medical robotics, or the exploration of complex structures. In this dimensional context, conventional approaches inspired by rigid robotics rapidly reach their limits, particularly in terms of energy consumption, integration complexity, and interaction safety. Discrete (multi stable) robots, built from the assembly of bistable modules, constitute a promising alternative. These systems rely on mechanical elements featuring multiple stable equilibrium states, enabling discrete motions through structural deformation (rotation, translation, etc.) with low energy consumption, since energy is only required during state transitions, thus promoting system frugality. System robustness is ensured thanks to modular redundancy, which allows compensation for certain failures or uncertainties without requiring heavy instrumentation. However, the systematic design of such robots at a miniature scale, while simultaneously considering fabrication constraints, materials, actuation, sensing, dynamics, and assembly, remains a largely open research domain. Objectives of the PhD The main objective of this PhD is to rethink bistable module concepts for miniature robotics and to develop a comprehensive methodology for the design, modeling, control, and experimental validation of frugal multi stable robots, from the elementary module to the assembled robot. The work will address both theoretical foundations and their experimental validation, including module fabrication, characterization, and integration, as well as the implementation of discrete control strategies adapted to multi stability. Research Program The scientific developments will consider two complementary levels. The module level will focus on the design, modeling, actuation, and experimental characterization of various bistable structures. The robot level will address the assembly, dynamic analysis, and control of multi stable systems obtained by combining these modules. The first research axis will focus on the conceptual design and fabrication of elementary bistable modules in 2D or 2½D, specifically tailored for miniaturization (meso scale). The work will aim to: - Build a library of parameterized bistable modules (characteristic dimensions, materials, geometry, etc.); - Develop mechanical models, either classical or using Artificial Intelligence, accounting for dynamic effects and nonlinear interactions; - Experimentally characterize their behavior, including stable equilibrium states, associated resisting forces, state switching forces, dynamic aspects, and repeatability under loading conditions. An optimization effort will be conducted at the module level, with a strong emphasis on structure–actuator coupling, in order to improve energy efficiency (high energy density, low consumption). The use of micro actuators (e.g. Shape Memory Alloys) will be favored. Finally, the integration of sensors will be investigated to estimate the internal state of each module and to measure interaction forces between modules and with the environment. The second research axis will address the design and control of multi stable robots, obtained from the serial assembly of bistable modules. The work will include : - Defining the optimal assembly, by determining the number of modules, their type (selected from the library), and their dimensional range; - Studying dynamic effects and their influence on the overall robot behavior; - Implementing discrete control strategies adapted to system multi stability, based on a quasi open loop control, using only modules’ state and internal/external interaction forces information. Expected Outcomes At the end of the PhD, the expected outcomes are: - A library of frugal bistable modules, manufactured, characterized, and validated; - A synthesis methodology enabling the design a Annuncio in inglese. Fonte: Euraxess (Commissione europea).
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Fonte: Euraxess (Commissione europea) · Servizio indipendente
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