Ubiquitous Robot

Ubiquitous robot-This chapter introduces the concept of the ubiquitous robot, emphasizing how robots are becoming seamlessly integrated into everyday life, blending with natural human environments

Ubiquitous computing-An exploration of ubiquitous computing, detailing how this concept revolutionizes interactions with digital technologies, enabling systems that are constantly aware and responsive to human needs

Smart device-This chapter delves into the rise of smart devices, from phones to wearables, illustrating their role in creating a more connected and automated world

Smartdust-A fascinating look at smartdust—tiny, sensorequipped devices that are capable of sensing, communicating, and interacting with their surroundings to create intelligent environments

Ambient intelligence-Ambient intelligence focuses on environments that anticipate human needs and react intelligently to them, ensuring that technology supports us unobtrusively in our daily lives

Smart environment-Building on ambient intelligence, this chapter discusses the infrastructure that supports smart environments, highlighting the importance of interconnected systems for dynamic, adaptable spaces

Mobile robot-The focus shifts to mobile robots, which navigate and interact with the physical world, exploring advancements in mobility and autonomous decisionmaking

Edge computing-Edge computing is introduced as a crucial component of modern robotics, enabling data processing closer to the source to reduce latency and improve performance in realtime applications

Internet of things-This chapter uncovers how the Internet of Things (IoT) links devices, sensors, and machines to the cloud, creating intelligent ecosystems capable of selfregulation and efficient resource use

Sensor grid-The sensor grid integrates various sensors to collect and process data from the environment, a fundamental component in making robotics systems responsive and adaptive

Smart object-Here, the focus is on smart objects—everyday items embedded with intelligence, capable of communicating and interacting within a broader network of devices

Cyber–physical system-Cyberphysical systems combine the physical world with computation, enabling robots to interact with and control their environments through complex, realtime feedback loops

Mobile cloud computing-Mobile cloud computing enables realtime data processing and storage on mobile devices, enhancing the capabilities of robots and enabling remote control and analysis

Victor Bahl-This chapter highlights the contributions of Victor Bahl, a pioneer in mobile computing, whose research has influenced the development of ubiquitous computing systems and mobile robotics

Roy Want-Roy Want’s work in ubiquitous computing and RFID technology is explored, detailing how his innovations have shaped the evolution of robotics and smart systems

Nvidia GTC-The chapter examines the role of Nvidia’s GPU technology in advancing robotics, discussing innovations showcased at Nvidia's GTC conferences and their impact on artificial intelligence and robotics

Mi Zhang-Mi Zhang’s research on cloud computing and robotics is explored, highlighting how his work on distributed systems has contributed to smarter, more efficient robotic solutions

PARC (company)-This chapter looks at Xerox PARC and its role in pioneering technologies such as the graphical user interface, which laid the groundwork for modern robotics and ubiquitous computing

Context awareness-Contextaware systems allow robots to adapt based on realworld conditions and user needs, making interactions more intuitive and efficient

Mobile device-Focusing on the evolution of mobile devices, this chapter explores their increasing role as hubs for controlling and interacting with robots and other smart technologies