Emphasis during all phases of this project should be on developing a sensor with minimized cost and size. With the increasingly cluttered RF environments, the need for different proximity sensor base technologies has been realized. Standoff distances anywhere from 0. This study should identify the equipment and resources needed to prototype a device, as well as initial device designs and unit cost estimates.
It is expected that one or more design iterations will occur during the 2nd phase. Phase II will end with a proof-of-concept prototype that demonstrates the performance and producibility of the sensor through a gun fired test.
In the same section
Deliverables include quarterly progress reports, prototype hardware, a manufacturing plan, a field test and a final report. Continued development of the sensor shall be pursued to reduce manufacturing costs. Key military applications for these devices are for end game fuzing. This technology can be expanded to commercial applications including car safety awareness systems. In order to achieve the desired weight reduction, manufacturing processes other than the traditional subtractive types need to be explored.
This project will investigate innovative materials, designs, and manufacturing methods to minimize production cost, minimize weight, and maintain the relevant performance requirements. Components can vary in both size and shape with a volume not to exceed Specific design targets will be provided at project kickoff. Define and execute a modeling and simulation test plan that will optimize component designs and material selections, and inform on the decision to switch to new manufacturing processes as well as the associated business case to do so.
Submission of a cost analysis is required but will not be used as a measure of success for Phase I. The objective is to conduct further development and optimization of the design and materials that provide the best balance to achieve the requirements, specifications, and metrics listed in this topic.
The Phase II effort will significantly improve upon the performance and efficiency of the conceptual design developed under Phase I. Commercial applications include automotive and aircraft engines. Jelis, M.
Table of contents
Hespos and N. This innovative solution should have a footprint of 20mm x 20mm. The sensor package suite must be capable of surviving a minimum of 20, Gs. If the proposed solution relies on an external battery, the sensor package must operate on 3. A solution with a year shelf life, EMI resistance, and compatibility with military operating and storage conditions is desired. The trade-off analysis must include alternate sensor specifications as well as any possible additions to the package for operational improvements. A preliminary sensor package design must be completed by the conclusion of phase I.
- Liselle (Crazed Trilogy Book 1).
- Gypsum: Mineral information, data and localities.!
- High School Programs.
- The Art of Arching out A Tie.
- The Best House on the Row.
- 101 Photo Ideas That Sell.
- Share This.
The final designs components that can be readily manufactured. After final designs have been agreed upon, one prototype of the fully assembled board for each design will be delivered for testing at a US government lab. Manufacturing partners should be engaged early in the phase II process to ensure manufacturability and to shorten the timeline for fielding. The contractor will update the board layout and form factor based upon results from Phase II and government requirements for size.
A final TDP package must also be delivered to the government as closeout of this phase. The intent is use such an array in a light field optical configuration to yield a very thin, light camera package that is both fast and compact in size and weight.
It is our desire to create a compact camera system that has a wide field of view as well as high resolution. Commercially we can find an exemplar in the Lytro approach. Georgeiv et. Eurographics Symposium on Rendering, Any given micro-lens will have a very short focal length.
We can make the focal length small robust if we form the lenses directly on the CMOS imager as suggested by Thiele et al. The clustered effective aperture need not be circular, but may be configured in such a way as to nest on a platform, such as a rifle. In such a case the aperture could wrap around the barrel, thus yielding not only a compact package, but one that would allow for passive ranging and three dimensional image reconstruction as well.
Model the optical systems to ensure that the lenslet arrays will yield suitable image quality for later image reconstruction. This imager should be functional and allow one to read out each of the sub-images. Transfer the readout into a computer and demonstrate that light field reconstruction is viable. Contractor shall clearly state in the proposal and final report how the phenomenology provides the unique capability for achieving the design goals. Prototype a rifle mounted fire control sight using this technology that demonstrates the benefits in performance over currently fielded systems.
Replace conventional electro-optics with the design in a sight that represents the optical performance of a fielded military small arms sighting system. Create a partnership with industry to commercialize the technology and improve the manufacturability.
Things to do
In particular, deep convolutional neural networks CNN have demonstrated their potential for accurate object detection and classification. Such a system would greatly reduce the time and cost required to bring soldier specific image based solutions to the battlefield. This should include identifying and assessing with costs all critical components necessary to develop the proposed system. Analysis should include optical design modeling and optimization in which both radiometric and polarimetric response characteristics are predicted, e.
Initial prototype development and testing will include both laboratory and field-based assessment in which standard image quality metrics will be determined, e. Prototype testing and evaluation will be conducted at a government facility in which optimum functionality will be determined based on range, atmospheric conditions, and tactical scenario.
Things to do in Hong Kong | Tourism - Cathay Pacific
To be conducted concurrent with the prototype development, the contractor will begin identifying all possible commercialization opportunities and partnerships necessary to successfully bring their developed intellectual property IP to market. Final report will include system design, experimentation findings, and commercialization plan. Phase III may include further modification and ruggedization depending on customer needs. Such evaluation will take place at an appropriate U. Army field-test facility.
This will also include further maturation of the system in which reduction in size, weight and power SWaP will be examined. The candidate is expected to pursue civilian applications and additional commercialization opportunities, e. Gurton, M. Felton, L. Pezzaniti, D. Chenault, K. Felton, "Detection of obscured targets with IR polarimetric imaging", Proc.
Yufa, K. Gurton, G.
- Emergency Medicine: Drugs of Abuse (Audio-Digest Foundation Emergency Medicine Continuing Medical Education (CME). Volume 29, Issue 04)!
- Make Money As A Ghostwriter.
- LIFE LESSONS (1).
- Hey Teacher...Real Talk!.
Short, S. Hu, P. Gurram, K. Gurton, A. Chan, "Improving cross-modal face recognition using polarimetric imaging", Optics Letters vol. Hu, N.
STAY IN THE KNOW
Short, K. Dai, H. Qi, Y. Xiong, Y. Li et al. He, X. Zhang, S. Ren, and J.
Related Posing Guide for Models and Photographers - Volume 7 - Featuring Ying (Posing Guides)
Copyright 2019 - All Right Reserved