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Supply Chain Management
Products and services are the result of the complex interaction of many individual value creators. Every enterprise has business connections with other participants of the supply chain suppliers, service providers, end customers. Supply chain management is the radical orientation of all activities along the value-added chain towards customer benefit. The individual links of the supply chain typically are legally independent entities looking for the respective optimum for their companies. It is a fact, however, that the total of many individual optima does not guarantee an overall optimum output. This is precisely where Supply Chain Management sets in: coordination along the whole supply chain to improve the overall performance and the overall costs to the benefit of everyone involved.
The Wisdom of the Many
You have lost your key in a meadow of high grass. Who do you ask for help? A genius like Einstein or 99 idiots? The answer to questions like this often lies in the wisdom of many. Not in the wisdom of one single genius. In nature we can find a lot of fascinating examples where the crowd prevails over the individual. Birds are flying in exact formations and ants are managing their resources in a way that even economist are impressed.
Robotics
1: Robotics: An introduction to the principles and applications of robotics technology. 2: Biomimetics: Exploring how nature inspires robotic designs and solutions. 3: Humanoid robot: An overview of robots designed to mimic human movements and behavior. 4: Swarm robotics: Investigating the collective behavior of multirobot systems. 5: Passive dynamics: Understanding how robots use minimal energy to achieve movement. 6: Mobile robot: Examining various types of robots designed for mobility and navigation. 7: Ballbot: A look at robots that balance on a ball for dynamic movement. 8: Obstacle avoidance: Techniques for robots to navigate through challenging environments. 9: Selfreconfiguring modul...
Biomimetics
1: Biomimetics: Introduction to biomimicry's transformative power in modern technology. 2: Microbotics: Insights into miniature robots inspired by microorganisms. 3: Bionics: Merging biology and engineering for advanced robotic functions. 4: Dario Floreano: Profile of a pioneer in bioinspired robotics. 5: Lotus effect: Natural selfcleaning surfaces in technology applications. 6: Bionic architecture: Natureinspired structures for sustainable design. 7: Biomimetic material: Materials science innovations from nature. 8: Robotics: Evolution and breakthroughs influenced by biological systems. 9: Wilhelm Barthlott: Contributions to biomimetic surface technology. 10: Biomimicry Institute: Instituti...
Bio Inspired Robotics
1: Bioinspired robotics: Explores the core principles and motivations behind robotics inspired by nature. 2: Biomimetics: Discusses how designs from nature are replicated in technology to solve engineering challenges. 3: Microbotics: Examines the creation of tiny robots mimicking biological systems for precision tasks. 4: Snakebot: Analyzes the design and function of snakeinspired robots for complex navigational tasks. 5: Dario Floreano: Highlights the contributions of Dario Floreano to the field of bioinspired robotics. 6: Animal locomotion: Investigates the various modes of movement found in the animal kingdom. 7: Robot locomotion: Looks at the techniques and mechanisms used for robot move...
Bionics
1: Bionics: Explores the core concepts, blending biology and robotics for groundbreaking results. 2: Biomedical engineering: Examines the medical applications of bionic systems for human benefit. 3: Biomimetics: Discusses technology inspired by biological systems to solve complex problems. 4: Bioinspired computing: Analyzes computing techniques rooted in natural processes. 5: Janine Benyus: Profiles the biomimicry pioneer and her influence on bionic applications. 6: Biorobotics: Reviews robots mimicking biological functions for enhanced adaptability. 7: Neuroprosthetics: Explores advancements in robotic prosthetics for neural integration. 8: Rahul Sarpeshkar: Highlights this key figure's con...
Biomimética
1: Biomimética: Introducción al poder transformador de la biomímesis en la tecnología moderna. 2: Microbótica: Perspectivas sobre robots en miniatura inspirados en microorganismos. 3: Biónica: Fusión de biología e ingeniería para funciones robóticas avanzadas. 4: Dario Floreano: Perfil de un pionero en robótica bioinspirada. 5: Efecto loto: Superficies naturales autolimpiantes en aplicaciones tecnológicas. 6: Arquitectura biónica: Estructuras inspiradas en la naturaleza para un diseño sustentable. 7: Material biomimético: Innovaciones en la ciencia de los materiales provenientes de la naturaleza. 8: Robótica: Evolución y avances influenciados por los sistemas biológicos. 9:...
Robótica
1: Robótica: Introducción a los principios y aplicaciones de la tecnología robótica. 2: Biomimética: Exploración de cómo la naturaleza inspira diseños y soluciones robóticas. 3: Robot humanoide: Una descripción general de los robots diseñados para imitar los movimientos y el comportamiento humanos. 4: Robótica de enjambre: Investigación del comportamiento colectivo de los sistemas multirobot. 5: Dinámica pasiva: Comprensión de cómo los robots utilizan una energía mínima para lograr el movimiento. 6: Robot móvil: Examen de varios tipos de robots diseñados para la movilidad y la navegación. 7: Ballbot: Una mirada a los robots que se equilibran sobre una pelota para el movi...
Biónica
1: Biónica: explora los conceptos básicos, combinando la biología y la robótica para obtener resultados innovadores. 2: Ingeniería biomédica: examina las aplicaciones médicas de los sistemas biónicos para el beneficio humano. 3: Biomimética: analiza la tecnología inspirada en los sistemas biológicos para resolver problemas complejos. 4: Computación bioinspirada: analiza las técnicas informáticas basadas en procesos naturales. 5: Janine Benyus: describe a la pionera de la biomimética y su influencia en las aplicaciones biónicas. 6: Biorrobótica: analiza robots que imitan funciones biológicas para una mayor adaptabilidad. 7: Neuroprótesis: explora los avances en prótesis ro...
Robótica inspirada en la biología
1: Robótica bioinspirada: explora los principios y motivaciones centrales detrás de la robótica inspirada en la naturaleza. 2: Biomimética: analiza cómo los diseños de la naturaleza se replican en la tecnología para resolver desafíos de ingeniería. 3: Microbótica: examina la creación de pequeños robots que imitan sistemas biológicos para tareas de precisión. 4: Snakebot: analiza el diseño y la función de robots inspirados en serpientes para tareas de navegación complejas. 5: Dario Floreano: destaca las contribuciones de Dario Floreano al campo de la robótica bioinspirada. 6: Locomoción animal: investiga los diversos modos de movimiento que se encuentran en el reino animal....
