CITRIS Core Seed Funding - CITRIS and the Banatao Institute

The CITRIS Seed Funding Program issues competitive awards that advance information technology research for societal benefit and catalyze proof-of-concept results that can lead to transformative solutions for industry and the public sector.

Interdisciplinary proposals are invited from principal investigators at UC Berkeley, UC Davis, UC Davis Health, UC Merced and UC Santa Cruz. Awardees embody the university’s public mission and innovative spirit of California. This program has accelerated more than 235 applied research projects led by over 400 UC innovators to date. Funded projects offer a glimpse at new frontiers of technology and have attracted more than $60 million in follow-on support from federal, state, corporate and private sources.

Projects are invited in these critical research areas:
🌱 Aviation
🌱 Sustainability and Climate Resilience
🌱 Digital Health
🌱 Artificial Intelligence and Robotics
🌱 Semiconductors and Systems

Read about the 2023 CITRIS Seed Funding projects.

Overview

To encourage cross-campus, interdisciplinary approaches to societal challenges, eligible teams will include two or more principal investigators (PIs) from the different UC campuses named above. Proposals that engage multiple academic disciplines are encouraged. For example, a computer scientist and economist might collaborate on novel data applications, each leveraging the strengths of their home campus.

Successful proposals will emphasize:

Information technology applications in the interest of society
Early-stage, proof-of-concept work with potential for impact at scale
Future extramural funding opportunities to further develop the proposed work

Solutions that address diversity, equity, workforce development, cybersecurity and/or policy questions are welcome.

Each selected team receives $40,000–$60,000 to pursue their research during the 12-month performance period. Awardees receive CITRIS Investigator status and can benefit from connections with the institute’s broader network and resources. At the conclusion of the award period, a brief outcome report is required to highlight the project successes and share next steps for the work.

Background

The Center for Information Technology Research in the Interest of Society and the Banatao Institute (CITRIS) create information technology solutions for society’s most pressing challenges. Established in 2001 by Governor Gray Davis, CITRIS leverages the interdisciplinary research capabilities of multiple UC campuses to advance the University of California’s mission. CITRIS was created to catalyze significant research and to strengthen bridges between world-class academic researchers, industry partners and public institutions that are charting the future and reshaping entire industries together.

To date, the CITRIS Seed Funding Program has supported more than 235 research projects led by over 400 UC innovators. Selected through a competitive RFP process, CITRIS Seed Awards support the scientific groundwork, data collection and prototyping necessary to pursue larger research or commercialization awards that address major unsolved challenges using information technology and computation. Funded projects offer a glimpse at new frontiers of technology and have attracted more than $60 million in follow-on support from federal, state, corporate and private sources.

Areas of Interest

Through engagement with our academic, industry and government collaborators, CITRIS has identified the following critical challenges. We seek innovative proposals that bring the university’s expertise and ingenuity to bear on these complex issues facing California and the world at large.

Below are the designated areas of interest for 2023:

Primary Category	Areas of Interest
1. Aviation	Sustainable transportation and delivery: electrification and other low-carbon solutions Uncrewed flight: route planning, safety systems, algorithms for real-time decision making Remote sensing technologies: technologies for wildfire management, agriculture, biodiversity conservation, air and water quality, and infrastructure See Full Description ⬇️
2. Sustainability and Climate Resilience	Energy infrastructure: decarbonization, emissions reduction, grid connectivity, microgrids, storage, optimized controls, powering rural communities Water: monitoring, management, security, decision support Food: resilient food systems, localized or low-energy food production, agricultural emissions reduction Transportation: decarbonized mobility, electric vehicles, shipping and logistics Sustainable built environment: smart cities, efficient grid integration, electrification, digital transformation and performance of buildings Community-scale hazards: tech-enabled mitigation of wildfires, flooding, drought, extreme heat, air pollution, biodiversity loss, coastal degradation See Full Description ⬇️
3. Digital Health	Data solutions: informatics and machine intelligence for health improvement Healthy aging in a digital world: increasing well-being and resilience of older adults Equitable access and remote patient monitoring: digital health innovations (telehealth, wearables, hardware, software, inclusive interfaces) Public health: technology-enabled solutions that support public health adaptation to adverse environmental, economic and geopolitical conditions (climate disruption, pollution, pandemics, conflict) See Full Description ⬇️
4. Artificial Intelligence and Robotics	Emerging applications: new uses for robots and automation in health, agriculture, manufacturing, disaster risk reduction, aviation, transportation, energy, and other industries Responsible artificial intelligence: improving sustainability and energy efficiency, increasing explainability, adding performance guarantees and reducing bias in training data Design for inclusive, accessible and/or assistive systems: intuitive and reliable human interfaces, using robots and AI to augment human capabilities Generative AI: techniques to detect artificially generated images; policy recommendations for consumer protection, copyright and privacy concerns; novel uses of generative AI for pro-social applications (e.g., health care, public services) Safety and wellness: shifting dangerous or precise work to machines to better protect and leverage human skills and creativity See Full Description ⬇️
5. Semiconductors and Systems	New devices and interconnects: scaling Moore’s Law beyond 3 nm, including advanced nanoelectronic switch prototypes operating at ultra-low power New architectures for integrated circuits: domain-specific architectures for targeted applications in Internet of Things, AI and machine learning, optimizing cloud and edge, integrating quantum and photonics AI/ML techniques: accelerating R&D and optimizing semiconductor design and manufacturing Power optimization: ultra-low power design and technologies to reduce energy consumption during device operation Manufacturing: energy, water and materials usage reduction, novel control, sensing, metrology, testing, assembly and packaging Supply chain: innovations that address material inputs, alternative production processes, manufacturing capacity, inventory shortages or overall supply chain stability See Full Description ⬇️

Full Technical Descriptions

Challenge 1: Aviation

Aviation is on the cusp of transformative change. Low-carbon commercial transportation, urban air mobility and next-generation logistics each have the potential to profoundly shape our lives and environment. In parallel, advances in remote sensing and earth observation can unlock new understanding about the multidimensional indicators and drivers of global shifts or disruptions. Exciting advances in aviation research sit at the intersection of these trends, including the development of leading-edge technologies, applications and policies related to the future of flight. Interdisciplinary work is needed to advance primary discoveries in propulsion, batteries, and materials — along with novel applications for imaging, sensing, mapping, automation, artificial intelligence (AI) and the Internet of Things (IoT).