At PARC, we have developed a suite of resource and energy management technology aimed at strategic consolidation of resources with no loss of performance.
This is a proposition for the design and deployment of a communication platform for medical devices and healthcare management systems based on PARC’s Content-Centric Networking (CCN) technology. It includes use case scenarios and innovation propositions for medical device and healthcare provisioning companies.
With the explosion in consumer electronics devices and growth in digital content generated and consumed at home, there is an increasing need for easy access to and sharing of digital media at home. Despite many efforts for industry standardization, device configurability and management remains a barrier to an intuitive user experience and seamless content sharing between devices. This document proposes a methodology for secure and intuitive device configuration and remote access service that enables sharing of media across mobile and home networking devices. The proposal outlines a phased methodology for easy and secure device configuration over Wi-Fi Direct, bootstrapping home network configuration, and enabling remote access and sharing of digital content. The document also highlights opportunities to drive growth for companies that operate in the consumer electronics devices or home media services sectors.
Up to 50 percent of total electricity consumption in office buildings is used for lighting. The worldwide drive to conserve energy and reduce CO2 emissions, as well as legislation to ban incandescent lights, is driving the adoption of low-energy lighting alternatives. As building lighting systems transition to more energy-efficient options, there is a growing opportunity to provide a secure, robust, and cost-effective way to install, operate, and manage these systems. This document presents a proposition for the design and prototyping of lighting control systems based on PARC’s Content-Centric Networking (CCN) technology. It includes an initial work proposition along with example use cases.
As mobile and embedded computing systems increasingly pervade environments, more and more information and content is available throughout our daily surroundings. Pervasive appliances and applications offer new sets of technical and business challenges – especially in the areas of managing information overload, making computing environments transparent to users, and enabling mobile and ambient devices to serve as intelligent interfaces to our physical surroundings.
Recent trends in data center technology have created unprecedented new flexibility in data center configuration and operation, and yet there is still a substantial amount of wasted capacity and wasted energy in current data centers.
The increasing costs and environmental impact of electric power generation are changing the way we view power consumption. It is now far more important for customer loads to be flexible and effective in their power use and to better match their consumption to the availability and quality of power on the grid. These fundamental shifts in the electric power landscape are leading to tremendous business opportunities.
New innovation models spur collaboration and growth. Some of the most advanced and successful companies, such as Sun Microsystems and PARC, have been on the vanguard of applying new innovation models, ecosystems that rely on multiple disciplines, including engineering, science, business strategy, ethnography, economics, and law to generate and implement technologies in markets where they can achieve the highest ROI and best satisfy customer needs.
Natural language technologies convert human language into formal semantic representations which computer applications can interpret, act on, and respond with easily understood grammatical sentences. PARC’s hybrid approach provides broad and deep natural language processing and retrieval – spanning syntax, semantics, context, and knowledge. Combining the scalability and processing power of computers with natural language understanding leads to many highly useful applications: ranging from spell checking and fact checking to automated question answering and knowledge-based reasoning systems.
Harnessing the combined power of SAP HANA and PARC’s HiperGraph graph analytics technology for real-time insights
This paper describes a particular high-performance CPV solution which compared to average flat-plate PV, uses 1/500th as much PV material and produces nearly twice as much electricity for a given collection area. The proposed solution is also smaller, cheaper, and easier to manufacture. These improvements enable generating electricity at less than half the cost possible with existing flat-plate technologies, potentially opening large new markets for clean solar energy.
In this white paper, learn:
- How “rapid ethnography” can be effectively compressed into a relatively short period without losing impact
- When rapid assessments are best used based on focus of inquiry, activity of interest, and findings meant to directly impact design
- How LA Express Park utilized PARC’s REACT+ and, as a result, discovered new technology innovation opportunities and how to drive better dynamic parking CX
Download the white paper today to learn how your organization can uncover the “hidden obvious” for market-defining potential.
PARC has developed the Filament Extension Atomizer (FEA) to address problems arising from difficult to spray materials. This technology is capable of spraying materials previously either difficult or impossible to spray for a wide range of applications including spray coating, particle creation, spray drying, drug delivery, or powder coatings.
Metamaterials (i.e., engineered electromagnetic structures), are poised to disrupt industries, create entirely new markets, and change society. The ability to design and fabricate materials with new functionalities opens the door to a new world of possibilities ¾it is now possible to realize Harry Potter’s invisibility cloak and optical black holes, which we once thought was impossible. Beyond the realms of science fiction, metamaterials can be tailored to either augment the functionality of existing devices or create new devices with superior performances.