Results 231 to 240 of about 346,892 (270)
Adaptive Relay Free Space Networking for Autonomous Underwater Drone Swarms. [PDF]
Sensors (Basel)Stack D, Nuti D, Rahmati M.
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Thermally assisted microbot transport through high-viscosity media. [PDF]
Sci RepIshiki AK, Neeves KB, Marr DWM.
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Comparison of metaheuristic algorithms set-point tracking-based weight optimization for model predictive control. [PDF]
Sci RepNassereddine K, Turzynski M.
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Decentralized, privacy-preserving surgical video analysis with Swarm Learning
Saldanha OL +32 more
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Current Opinion in Microbiology, 1999
Swarming involves differentiation of vegetative cells into hyperflagellated swarm cells that undergo rapid and coordinated population migration across solid surfaces. Cell density, surface contact, and physiological signals all provide critical stimuli, and close cell alignment and the production of secreted migration factors facilitate mass ...
G M, Fraser, C, Hughes
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Swarming involves differentiation of vegetative cells into hyperflagellated swarm cells that undergo rapid and coordinated population migration across solid surfaces. Cell density, surface contact, and physiological signals all provide critical stimuli, and close cell alignment and the production of secreted migration factors facilitate mass ...
G M, Fraser, C, Hughes
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2022
This chapter examines the growing colony of bees. It argues that one cannot stop a colony from growing once it's started—it will just keep on wanting to expand. The chapter describes that when a hive is full, the colony will split in two. The queen's pheromone, which usually gets passed around the hive, no longer spreads far enough; there are too many ...
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This chapter examines the growing colony of bees. It argues that one cannot stop a colony from growing once it's started—it will just keep on wanting to expand. The chapter describes that when a hive is full, the colony will split in two. The queen's pheromone, which usually gets passed around the hive, no longer spreads far enough; there are too many ...
openaire +2 more sources
Multi-swarm Infrastructure for Swarm Versus Swarm Experimentation
2018This paper builds on previous Naval Postgraduate School success with large, autonomous swarms of fixed-wing unmanned aerial vehicles (UAV) to provide infrastructure for the simultaneous operation of multiple swarms. Developed in support of an event fostering swarm capability development through competition, the online referee, or Arbiter, monitors and ...
Duane T. Davis +3 more
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Artificial Life, 2009
We propose swarm chemistry, a new artificial chemistry framework that uses artificial swarm populations as chemical reactants. Reaction in swarm chemistry is not determined by predefined reaction rules as commonly assumed in typical artificial chemistry studies, but is spontaneously achieved by the emergence of a new spatiotemporal pattern of ...
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We propose swarm chemistry, a new artificial chemistry framework that uses artificial swarm populations as chemical reactants. Reaction in swarm chemistry is not determined by predefined reaction rules as commonly assumed in typical artificial chemistry studies, but is spontaneously achieved by the emergence of a new spatiotemporal pattern of ...
openaire +2 more sources
Proceedings of the 6th international workshop on Challenges of large applications in distributed environments, 2008
With the exponential growth of complete genome sequences, the analysis of these sequences is becoming a powerful approach to build genome-scale metabolic models. These models can be used to study individual molecular components and their relationships, and eventually study cells as systems.
Xinghua Shi, Rick Stevens
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With the exponential growth of complete genome sequences, the analysis of these sequences is becoming a powerful approach to build genome-scale metabolic models. These models can be used to study individual molecular components and their relationships, and eventually study cells as systems.
Xinghua Shi, Rick Stevens
openaire +1 more source