A significantly enhanced Internet architecture that goes beyond incremental improvements to the existing network architecture to provide enhancements such as greater trustworthiness in the network core and customer networks, improved addressing and routing, and end-to-end quality of service provisioning;
New network architectures that take advantage of ever-greater storage densities, processing speeds, and communications bandwidths;More trustworthy telecommunications networks better able to address such challenges as maintaining the security of the voice network even in the face of a rising frequency, sophistication, and severity of attacks and the complexities and interdependencies that come with the convergence of voice and data networks;

Ubiquitous, higher-performance, more-affordable broadband access that enables richer, more interactive applications, including applications in such important areas as health care and education;Telepresence and telecollaboration environments that reproduce a local space at a distance and enable spatially separated individuals or teams to work more readily in concert;Public safety networks that offer higher mobility, better adaptation to harsh and changing conditions, and increased resiliency to damage;Adaptive/cognitive wireless networks that enable higher-performance communications, make more efficient use of radio spectrum, and complement or supplant today’s chiefly wired networks;Location-based wireless networks that provide information and services tailored to the local environment;

Self-organizing sensor networks that have large numbers of nodes, are energy efficient, and have self-organizing capabilities, which would enable ubiquitous, cheap monitoring of the environment and weather, sensing of biological or chemical agents, and monitoring of facilities; and New semiconductor devices that enable higher performance and new forms of communications and computing.

More info: junior network engineer