NEUROSCIENCE – 2023

COME SEE US AT BOOTH 3330

Scientists worldwide will congregate at Neuroscience 2023 to discover new ideas, share their research, and experience the best the field offers.

  AFRL/AFOSR-FUNDED PRESENTATIONS

Connect with AFOSR-funded speakers during Neuroscience 2023 through a variety of talks and poster sessions:

•  NANO50.09 – Carlsim 6: an open-source library for large-scale, biologically detailed spiking neural network simulation
  • R. K. BAIN, K. CHEN, L. NIEDERMEIER, J. XING, J. L. KRICHMAR
  • Presenter: R.K. Bain
  • November 13, 3 pm – 3:45 pm
  • Room: WCC 201

• NANO69.05 – Restoring access to hippocampal memories thought-to-be lost in the sleep-deprived brain
  • Y. G. BOLSIUS, P. HECKMAN, C. PARACIANI, S. WILHELM, F. RAVEN, R. L. MEIJER, M. KAS, S. RAMIREZ, P. MEERLO, *R. HAVEKES
  • Presenter: R. HAVEKES
  • November 14, 2 pm – 2:45 pm
  • Room: WCC 144

• NANO69.08 – Forget the Engram: Experience shapes memory
  • *J. O’LEARY, R. BRUCKNER, L. AUTORE, T. RYAN
  • Presenter: J. O’LEARY
  • November 14, 2:45 pm – 3:15 pm
  • Room: WCC 144

• NANO79.08 – Spontaneous visual processing of non-rigid materials recruits intuitive physical inference regions and activates physics-based representations in the human brain
  
  • *W. BI, Q. LIN, K. PENG, A. SHAH, I. YILDIRIM
  • Presenter: W. BI
  • November 15, 9:45 am – 10:00 am
  • Room: WCC 147A

Note: Bolded name of principal investigator is funded by AFOSR

  AFRL/AFOSR-FUNDED POSTER PRESENTATIONS

• PSTR027.07 / Z8 – Dynamic correlated activity in vivo reveals rapid compensatory plasticity
  • A. ANDREI, A. AKIL, N. KHARAS, R. ROSENBAUM, K. JOSIC, V. DRAGOI
  • November 11, 1 pm – 5 pm

• PSTR052.06 / TT8 – Overwriting an instinct: extinction and reinstatement of the innate threat response to visual looming stimuli
  • P. B. CONWAY, A. HAREL, L. AUTORE, J. D. O’LEARY, T. J. RYAN
  • November 11, 1 pm – 5 pm

• PSTR147.08 / Z10 – The role of active vision in the primary visual cortex of freely-moving marmosets
  • J. LI¹, V. SINGH, J. MITCHELL, A. HUK, C. MILLER
  • November 12, 1 pm – 5 pm

• PSTR169.13 / PP4 – A dendrite-based model of the storage of novel, graded-amplitude inputs in working memory
  • *J. XU, M. GOLDMAN, S. LUCK, D. COX
  • November 12, 1 pm – 5 pm

• PSTR150.02 / AA18 – A model of cortical error-correction from noisy retinal ganglion cell output
  • A. BELSTEN, B. A. OLSHAUSEN
  • November 12, 1 pm -5 pm

• PSTR270.26 / Z6 – Intranasal β-endorphin delivery for targeted antinociception in healthy male rats
  • K. A. JONES, B. SHARMA, F. S. CURTNER, R. J. MOORE, H. C. MCCUBBINS, C. N. HATCHER-SOLIS
  • November 13, 1 pm – 5 pm

• PSTR288.05 / LL18 – Hippocampal Engrams Flexibly Generate Behavioral Responses and Brain-wide Network States
  • K. E. DORST, R. A. SENNE, A. DIEP, R. SUTHARD, A. R. DE BOER, E. A. RUESCH, M. BUZHARSKY, A. PYO, S. RAMIREZ
  • November 13, 1 pm – 5 pm

• PSTR239.17 / WW8 – Topographical organization of object coding in the human medical temporal lobe
  • Y. WANG, R. CAO, X. LI, M. E. RAICHLE, S. WANG
  • November 13, 8 am -12 pm

• PSTR356.06 / KK17 – Characterization of sleep-restricted stress-induced cognitive impairment: Neurobehavioral sex-specific differences, melatonin production, and hippocampal neuroinflammation
  • *L. OLSEN, R. J. MOORE, N. GARGAS, J. STRICKER, H. MCCUBBINS, J. ROHAN, C. HATCHER-SOLIS
  • November 14, 8 am – 12 pm

• PSTR344.04 / CC1 – Photoreceptor resolved temporal contrast encoding in LGN neurons during ongoing stimulation (abstractsonline.com)
  • K. RAMSEY, P. TELLERS, C. NYANKER, A. MEADWAY, L. SINCICH
  • November 14, 8 am – 12 pm

• PSTR389.13 / C57 – Learning in closed-loop neural cultures embodied in virtual worlds
  • W. CLAWSON, M. LEVIN
  • November 14, 1 pm – 5 pm

• PSTR445.26 / XX46 – Advancing Neuromorphic Design Through Biophysical Understanding of Neuronal Computational Complexity
  • *C. J. HARPER, A. KUMAR
  • November 14, 1 pm – 5 pm

• PSTR478.09 / CC17 – Suppression of neocortical SST neuron activity drives behavioral change during acquisition of a sensory association task
  • R. A. SWINDELL, E. PARK, M. ZHU, A. L. BARTH
  • November 15, 8 am – 12 pm

• PSTR560.07 / OO24 – Single-neuron encoding of Theory of Mind in the human medial temporal lobe and medial frontal cortex
  • R. CAO, J. DUBOIS, A. N. MAMELAK, R. ADOLPHS, S. WANG, U. RUTISHAUSER
  • November 15, 1 pm – 5 pm

Note: Bolded name of principal investigator is funded by AFOSR

  COGNITIVE & COMPUTATIONAL NEUROSCIENCE PROGRAM

The Air Force Office of Scientific Research’s (AFOSR) Cognitive & Computational Neuroscience program funds high-risk/high-impact basic research on the mechanisms of perception, cognition, and behavior and at the intersection of neuroscience and artificial intelligence.

BASIC NEUROSCIENCE RESEARCH

• Mechanisms of Perception, Cognition, Motor Control/Behavior – This area is at the core of the program and covers sensory input, motor output, and everything in between. Recent grants have examined the retinal mechanisms of color vision, visual search and attention, aspects of learning, memory, and decision making, and neural population dynamics that drive sensorimotor processing and motor output.
• Neural Information Representation – Proposed research projects should characterize neural activity with the aim of reliably decoding neuronal information. Proposers should describe how their research, if successful, will advance our ability to test hypotheses regarding neural mechanisms and functions and/or enable greater sophistication for applications such as sensory and sensorimotor prosthetics, brain-machine interfaces, and deception detection.

NEUROSCIENCE & ARTIFICIAL INTELLIGENCE

• Brain-inspired Computing – Research proposals on brain-inspired computational capabilities should describe how the research will fill gaps in computing or how it will enable novel artificial intelligence algorithms.
• Brain-inspired Machine Learning – The program seeks to create brain-inspired or biomimetic algorithms that advance the state of the art and have the potential for revolutionary progress on these or related research challenges. 
• Bio-inspired Sensing – Proposals should describe a species’ sensory function in which the sensor, environment, and behavior align with the proposed application(s), hypotheses about the associated neural information processing mechanisms, and a research plan that culminates in a proof-of-concept demonstration.

DOWNLOAD the agenda of the November 2023 Program Review to see currently funded grants.

CHECK OUT AFRL/AFOSR RESOURCES

  AFRL CAREER & FUNDING OPPORTUNITIES

AFOSR’s program officers foster and fund research within university, industry, and AFRL laboratories to ensure the transition of research results to support US Air and Space Force needs.

To accomplish this task, AFOSR solicits proposals for research through educational and special programs, university research initiatives (URIs) and Broad Agency Announcements (BAAs).

• Research Interests of the Air Force Office of Scientific Research – FA9550-23-S-0001

In addition to the funding opportunity above, explore the various programs and opportunities available with AFRL and AFOSR for industry, academia, and government below:

ACADEMIA

• AFOSR – Funding Opportunities – Educational Programs
• AFOSR – Funding Opportunities – Special Programs
• AFOSR – Funding Opportunities – University Research Initiative (URI)
• AFRL Scholars Program – Scholars Program
• AFRL Science and Technology Fellowship (STFP) – STFP Program / FACT SHEET
• Defense University Research Instrumentation Program (DURIP) – DURIP Program / FACT SHEET
• Multidisciplinary Research Program of the University Research Initiative (MURI) – MURI Program / FACT SHEET
• Young Investigator Program (YIP) – YIP Program / FACT SHEET
• AFRL/AFOSR STEM Program – STEM Program FOA
• USAF Summer Faculty Fellowship Program (USAF-SFFP) – USAF-SFFP Program
• National Defense Science and Engineering Graduate (NDSEG) Fellowship Program – NDSEG Program / FACT SHEET

INDUSTRY

• Small Business Innovation Research and Small Business Technology Transfer Programs: (SBIR /STTR) Programs

  HOW TO WORK WITH AFRL/AFOSR

1. Start with the Broad Agency Announcement on grants.gov (“Research Interests of the Air Force Office of Scientific Research”)
2. Submit a ~3-5 page white paper via email, briefly describing the proposed research, including details about the research questions and hypotheses, approach, anticipated benefits, and approximate total cost (with indirect costs)
3. If invited, submit a full proposal via grants.gov
4. Await funding decision and award (expect 6 months)
5. Get to work (pending any experimental protocol approvals)! Requirements include annual progress reports and participation in annual program reviews.

  ABOUT THE SOCIETY FOR NEUROSCIENCE (SFN)

Founded in 1969, SfN now has nearly 35,000 members in more than 95 countries. Year-round programming includes the publishing of two highly regarded scientific journals, JNeurosci and eNeuro; professional development resources and career training through Neuronline¸ the Society’s home for learning and discussion; science advocacy and public policy engagement including annual Capitol Hill Day; and a variety of engaging public outreach efforts, led by the expanding and interactive collection of public-facing resources on BrainFacts.org.

Approximately 100 staff committed to SfN’s mission are employed at its headquarters building in downtown Washington, D.C., which the Society has owned since 2006. SfN’s annual meeting regularly attracts more than 30,000 attendees, representing 80 countries; 536 exhibiting companies; and close to 300 journalists. SfN exists to:

• Advance scientific exchange;
• Support the neuroscience community;
• Educate and engage the public; and
• Advocate for the field.

  ABOUT AFSOR

AFOSR continues to expand the horizon of scientific knowledge through its leadership and management of the Air Force’s basic research program. As a vital component of the Air Force Research Laboratory (AFRL), AFOSR’s mission is to support Air Force goals of control and maximum utilization of air, space, and cyberspace.

AFOSR accomplishes its mission by investing in basic research efforts for the Air Force in relevant scientific areas. Central to AFOSR’s strategy is the transfer of the fruits of basic research to industry, the supplier of Air Force acquisitions; to the academic community which can lead the way to still more accomplishment; and to the other directorates of AFRL that carry the responsibility for applied and development research leading to acquisition.

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  ABOUT AFRL

The Air Force Research Laboratory (AFRL) is the primary scientific research and development center for the Department of the Air Force. AFRL plays an integral role in leading the discovery, development, and integration of affordable warfighting technologies for our air, space, and cyberspace forces. With a workforce of 12,500+ across nine technology areas and 40 other operations worldwide, AFRL provides a diverse portfolio of science and technology ranging from fundamental to advanced research and technology development.

Within AFRL, scientists and engineers collaborate to execute crosscutting R&D. External collaboration including partnerships with industry, academia and other agencies is also an integral part of AFRL’s business model. In continuing with this integrated, cooperative approach, AFRL will seamlessly support the S&T needs of two services: the Air Force and the Space Force. Today’s global threats require multi-disciplinary solutions, and AFRL is committed to supporting the warfighter in every key domain.

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  LEARN MORE ABOUT AFRL

AFRL reimagines what’s possible by leading scientific research and development for the Air Force and Space Force.

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