Although quantum computing and robotic swarms are still quite fresh concepts for current research, lately they’ve had a huge spark of innovation. Whether it be big companies investing in quantum computers and super synchronized robotic drones, one certain thing is that these technologies are relevant for promising applications and optimizations in humanity’s future. However, a big problem these technologies have is that they are still new and have barely been explored, let alone the fusion between them or function optimization. The main methods this paper uses to tackle this problem are modern research paper readings, critical analysis, possible future applications, and mathematical equations that explain hypothetical future scenarios. Throughout this research, we have found many results from the possible applications, faster drone synchronization, future opportunities, challenges, and limitations in qubit-based quantum system implications on robotic swarms. Lastly, this paper’s findings contribute mainly to quantum function optimization, physics, technology, and industries that may be affected by hyper-synchronized robotic swarms.

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

Qubit-Based Quantum System Implications on Robotic Swarm and Function Optimization

  • Korab Jashari,
  • Blerta Prevalla Etemi,
  • Debabrata Singh,
  • Debabrata Samanta

摘要

Although quantum computing and robotic swarms are still quite fresh concepts for current research, lately they’ve had a huge spark of innovation. Whether it be big companies investing in quantum computers and super synchronized robotic drones, one certain thing is that these technologies are relevant for promising applications and optimizations in humanity’s future. However, a big problem these technologies have is that they are still new and have barely been explored, let alone the fusion between them or function optimization. The main methods this paper uses to tackle this problem are modern research paper readings, critical analysis, possible future applications, and mathematical equations that explain hypothetical future scenarios. Throughout this research, we have found many results from the possible applications, faster drone synchronization, future opportunities, challenges, and limitations in qubit-based quantum system implications on robotic swarms. Lastly, this paper’s findings contribute mainly to quantum function optimization, physics, technology, and industries that may be affected by hyper-synchronized robotic swarms.