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New 2016 Fall Schedule 100%
Dance FALL SCHEDULE 2016-17 11 Main Street • Danville, NH 03819 603-329-5656 l.a.dance@comcast.net ladancenh.com MONDAY WEDNESDAY (cont’d) 3:00-3:45 3:45-4:30 4:30-5:15 5:15-6:00 6:00-6:45 6:45-7:30 7:30-8:45 3:15-4:15 4:15-5:15 5:15-6:15 6:15-7:15 7:15-8:00 Studio 1 Studio 3 3:30-4:30 4:30-6:00 6:00-6:45 6:45-8:00 Aerial – Intermediate (ages 11+) Aerial – Beginner/Int.
https://www.pdf-archive.com/2016/06/16/new-2016-fall-schedule/
16/06/2016 www.pdf-archive.com
Phelps 96%
R1 SUTPHEN BACK UP CAMERA SPH 100 AERIAL PLATFORM BRITAX MARKER LIGHTS FEDERAL SIGNAL Q2B RIGHT SIDE BLIND SPOT CAMERA HARRISON 10KW GENERATOR THERE'S NOTHING LIKE A SUTPHEN 12"
https://www.pdf-archive.com/2016/09/02/phelps/
02/09/2016 www.pdf-archive.com
IMG 88%
Neither outside aerial nor ground is necessary with this model.
https://www.pdf-archive.com/2012/07/23/img/
23/07/2012 www.pdf-archive.com
How to rank up - Rocket League 88%
Ground play In bronze, there are very few players (if not none) that can consistently hit the ball in an aerial situation.
https://www.pdf-archive.com/2017/07/11/how-to-rank-up-rocket-league/
11/07/2017 www.pdf-archive.com
Barber resume 86%
Led numerous engineering/mapping, aerial photography and satellite remote sensing projects from inception through delivery as a Project Manager.
https://www.pdf-archive.com/2019/06/11/barber-resume/
11/06/2019 www.pdf-archive.com
04 TEC Plant Ref English 85%
OUTSIDE PLANT SOLUTIONS A B Splice Closures FOSC 400, 450, 600 E C FOSC Splice Closure Accessories FOSC Tray, CWDM/ DWDMs and Splitters Field Installable CWDMs and Splitters OCC1C, OCC1P FOSC OC OCC1C, OCC1P F Compact CWDM I G Indoor/Outdoor Customer Premises Closures OCC1C, OCC1P FibrBoss CB J H Splice Closures Aerial Splice Closures FIBRBox AIR FOSC K Heat Shrink Sleeve Coax Coupling Closure TCS2 CERTI-SEAL M D N L Fiber Optic Panels P O Fiber Wall Boxes Fiber Distribution Hubs Hub in a Pedestal Indoor and Outdoor Indoor and Outdoor HIP Q Value Added Modules C/DWDM, Monitor, Splitter Multiport Service Terminal MST R Harsh Environment Drop Cables Power Distribution Panels PAGE 3 A Splice Closures FOSC 400, 450, 600 The FOSC family of fiber optic splice closures is available with heat shrink or gel sealing technology for cable terminations.
https://www.pdf-archive.com/2015/02/08/04-tec-plant-ref-english/
08/02/2015 www.pdf-archive.com
Compiled2015 82%
£11.99 BRONZE CHEETAH BRAND NEW FOR 2015 14 Fireworks contains some nice impact fireworks that includes fountains, roman candles, wheels and even some aerial single shots.
https://www.pdf-archive.com/2015/11/04/compiled2015/
04/11/2015 www.pdf-archive.com
HS PUBLICATIONS CATALOGUE 2017 82%
THE BASICS You need a receiver and an aerial covering Band I (48-70MHz).
https://www.pdf-archive.com/2017/03/20/hs-publications-catalogue-2017/
20/03/2017 www.pdf-archive.com
TheTruthAboutDrones Construction 79%
In this paper, we’ll show how drones have been used successfully in construction and infrastructure asset management as aerial image and data capture devices thus far, review competitive and traditional approaches using incumbent technology, discuss the opportunities and challenges posed by the technology itself, outline the lessons learned, and discuss what’s next for drones in this industry.
https://www.pdf-archive.com/2016/11/04/thetruthaboutdrones-construction/
04/11/2016 www.pdf-archive.com
GA1 Main Topic 77%
1 In the military they are typically referred to as UAVs (unmanned aerial vehicles), UCAVs (unmanned combat aerial vehicles) or RPAS (remotely piloted aerial systems).
https://www.pdf-archive.com/2018/05/03/ga1-main-topic/
03/05/2018 www.pdf-archive.com
www.test-cards.fsnet.co.ukhs publications.doc 74%
THE BASICS You need a receiver and an aerial covering Band I (48-70MHz).
https://www.pdf-archive.com/2018/03/12/www-test-cards-fsnet-co-ukhs-publications-doc/
12/03/2018 www.pdf-archive.com
www.dx-tv.fsnet.co.ukhs publications.doc 74%
THE BASICS You need a receiver and an aerial covering Band I (48-70MHz).
https://www.pdf-archive.com/2018/03/12/www-dx-tv-fsnet-co-ukhs-publications-doc/
12/03/2018 www.pdf-archive.com
ULS Price List+Spares Repaiirs List 74%
https://www.pdf-archive.com/2015/02/10/uls-price-list-spares-repaiirs-list/
10/02/2015 www.pdf-archive.com
11562114 1 74%
Description of the Apple Valley Ranchos Water System to be Acquired Except as expressly stated herein, all property, real, intangible, and personal, including records, books, accounts, utility plants, water supply contracts and water rights, and “water system” as defined in Section 240 of the California Public Utilities Code, that are owned by Apple Valley Ranchos Water Company and comprising its water service system for supplying, treating, pumping, transmitting, distributing, testing, monitoring, measuring, and delivering all classes of water service to and within the Apple Valley Ranchos Water Company Service Area, as that is shown and described in the records of the California Public Utilities Commission, as well as in property information reports, aerial views, and the Mojave Basin Area Adjudication.
https://www.pdf-archive.com/2015/11/13/11562114-1/
12/11/2015 www.pdf-archive.com
www.test-cards.fsnet.co.uk - hs publications 74%
THE BASICS You need a receiver and an aerial covering Band I (48-70MHz).
https://www.pdf-archive.com/2018/03/28/www-test-cards-fsnet-co-uk-hs-publications/
28/03/2018 www.pdf-archive.com
www.dx-tv.fsnet.co.uk - hs publications 74%
THE BASICS You need a receiver and an aerial covering Band I (48-70MHz).
https://www.pdf-archive.com/2018/03/28/www-dx-tv-fsnet-co-uk-hs-publications/
28/03/2018 www.pdf-archive.com
1976 Other Makes Base eBay 72%
1976 Other Makes Base 1976 Sutphen 100 foot aerial tower quint pumper fire rig See original listing Item condition:
https://www.pdf-archive.com/2016/12/12/1976-other-makes-base-ebay/
12/12/2016 www.pdf-archive.com
calendariopdf 70%
https://www.pdf-archive.com/2018/02/05/calendariopdf/
05/02/2018 www.pdf-archive.com
271e-final-report 69%
Aerial Robot Design Hybrid Robot and Delivery Mechanism Sandeep Arakali, Jess Moss Michelle Suen, Zaifeng Zheng Stanford University December 2017 Contents 1 Mission 1.1 Mission Ideation .
https://www.pdf-archive.com/2018/10/18/271e-final-report/
18/10/2018 www.pdf-archive.com
More drones more publick risk 69%
across border drug trafficking, illegal items delivery in prisons, spy aerial photography, political propaganda… and can even pose more risk in future as a potential bio-warfare delivery devices that could endanger government structures or public events… Security officials, police and legal experts from around the world are gathered in London for a global conference on tackling the threats posed to prisons, airports, nuclear facilities and other infrastructure by consumer drones.
https://www.pdf-archive.com/2017/05/17/more-drones-more-publick-risk/
17/05/2017 www.pdf-archive.com
dissertation 69%
Modelling the flight of starlings By Simon Byford ‐ sjb17u@cs.nott.ac.uk Supervised by Dr. Jason Atkin ‐ jaa@cs.nott.ac.uk School of Computer Science University of Nottingham Submitted May 2011, in partial fulfilment of the conditions of the award of the degree: BSc (Hons) Mathematics and Computer Science I hereby declare that this dissertation is all my own work, except as indicated in the text Signature: May 6th, 2011 Abstract A project was undertaken to build a software model capable of accurately simulating the flocking behaviour of starlings. After reviewing the relevant literature and studying the mechanics of flocking, such a model was carefully designed and implemented in the Java programming language. The model is capable of exhibiting a range of flocking behaviours with simulations comprising upwards of 200 individual birds. A great number of behavioural parameters are available to edit before and during simulations, where their effects can be viewed in real time. The ability to spawn virtual falcons as well as starlings introduces the notion of a predator which is an area largely unexplored in previous models. A number of interesting observations were made during the analysis phase of this project, including the fact that simulations employing metric and topological distances induce much the same flocking behaviour, and that the application can typically handle simulations comprising up to 500 individual birds before experiencing significant drops in performance. In summary, the project was deemed highly successful and a number of possible future extensions were proposed. 1 Table of contents Abstract ................................................................................................................................................... 1 1 ‐ Introduction and motivation .............................................................................................................. 5 1.1 ‐ Aims and objectives .................................................................................................................... 5 1.2 ‐ Motivation .................................................................................................................................. 6 2 ‐ Related work ...................................................................................................................................... 7 2.1 ‐ Literature .................................................................................................................................... 7 2.1.1 ‐ Flocks, Herds, and Schools: A Distributed Behavioral Model .............................................. 7 2.1.2 ‐ An empirical study of large, naturally occurring starling flocks: a benchmark in collective animal behaviour ............................................................................................................................ 8 2.1.3 ‐ Self‐organised complex aerial displays of thousands of starlings: a model ........................ 8 2.1.4 ‐ Interaction ruling animal collective behavior depends on topological rather than metric distance: Evidence from a field study ............................................................................................. 9 2.1.5 ‐ Steering Behaviors for Autonomous Characters ................................................................. 9 2.1.6 ‐ An efficient algorithm to find k‐nearest neighbours in flocking behaviour ....................... 10 2.1.7 ‐ Aerial flocking patterns of wintering starlings, Sturnus vulgaris, under different predation risk ................................................................................................................................................. 10 2.1.8 ‐ Parallel Bird Flocking Simulation ........................................................................................ 10 2.1.9 ‐ Simulating and Visualizing Natural Flocking Behaviour ..................................................... 11 2.1.10 ‐ Less related work ............................................................................................................. 11 2.2 ‐ Models ...................................................................................................................................... 12 2.2.1 ‐ Boids model ....................................................................................................................... 12 2.2.2 ‐ NetLogo Flocking model .................................................................................................... 13 2.2.3 ‐ 3D Flocking Boids II ............................................................................................................ 14 2.3 ‐ Other sources ............................................................................................................................ 14 3 ‐ Some theory ..................................................................................................................................... 15 3.1 ‐ The three urges ......................................................................................................................... 15 3.1.1 ‐ Separation .......................................................................................................................... 15 3.1.2 ‐ Alignment ........................................................................................................................... 15 3.1.3 ‐ Cohesion ............................................................................................................................ 15 3.2 ‐ Additional urges ........................................................................................................................ 16 3.2.1 ‐ Predator avoidance ............................................................................................................ 16 3.2.2 ‐ Randomness ....................................................................................................................... 16 3.2.3 ‐ Migration and obstacle avoidance ..................................................................................... 16 3.3 ‐ Combining urges ....................................................................................................................... 17 2 3.4 ‐ Steering processing chains ........................................................................................................ 18 3.4.1 ‐ Falcons ............................................................................................................................... 19 3.4.2 ‐ Starlings .............................................................................................................................. 20 3.5 ‐ Metric vs topological distance .................................................................................................. 21 4 ‐ Description of the work ................................................................................................................... 23 5 ‐ Design............................................................................................................................................... 26 5.1 ‐ Language, libraries and platform .............................................................................................. 26 5.2 ‐ Prototyping ............................................................................................................................... 27 5.3 ‐ GUI Design................................................................................................................................. 28 5.4 ‐ Class diagram ............................................................................................................................ 31 6 ‐ Implementation ............................................................................................................................... 32 6.1 ‐ Design changes ......................................................................................................................... 32 6.1.1 ‐ Awareness circle ................................................................................................................ 32 6.1.2 ‐ Save/load functionality ...................................................................................................... 33 6.1.3 ‐ Removal of viewing angle attribute ................................................................................... 33 6.1.4 ‐ Anti‐aliasing ....................................................................................................................... 33 6.1.5 ‐ FPS counter ........................................................................................................................ 34 6.1.6 ‐ Sizable window .................................................................................................................. 34 6.2 ‐ Classes ....................................................................................................................................... 35 6.2.1 ‐ AwarenessCircle ................................................................................................................. 35 6.2.2 ‐ Bird ..................................................................................................................................... 35 6.2.3 ‐ DynamicSimProperties ....................................................................................................... 36 6.2.4 ‐ FPSCounter......................................................................................................................... 36 6.2.5 ‐ Falcon ................................................................................................................................. 37 6.2.6 ‐ FlockManager .................................................................................................................... 38 6.2.7 ‐ GUIPanel ............................................................................................................................ 41 6.2.8‐ SimDims .............................................................................................................................. 42 6.2.9‐ SimulationManager ............................................................................................................ 42 6.2.10 ‐ SimulationPanel ............................................................................................................... 43 6.2.11 ‐ Starling ............................................................................................................................. 43 6.2.12 ‐ StaticSimProperties .......................................................................................................... 44 6.2.13 ‐ Window ............................................................................................................................ 44 6.3 ‐ Algorithms of interest ............................................................................................................... 46 6.3.1 ‐ Calculating the distance between birds ............................................................................. 46 3 6.3.2 ‐ Calculating the average bearing ........................................................................................ 47 6.3.3 ‐ Calculating the nearest n birds (topological distance) ...................................................... 49 6.3.4 ‐ Drawing the "awareness circle" ......................................................................................... 50 6.4 ‐ Notable problems faced ........................................................................................................... 51 6.4.1 ‐ Bias towards flocking in one particular direction .............................................................. 51 6.5 ‐ Testing ....................................................................................................................................... 52 6.5.1 ‐ “Continuous testing”.......................................................................................................... 52 6.5.2 ‐ Unit testing ........................................................................................................................ 52 7 ‐ Analysis and evaluation ................................................................................................................... 53 7.1 ‐ Analysis ..................................................................................................................................... 53 7.1.1 ‐ Tests involving starlings ..................................................................................................... 53 7.1.2 ‐ Tests involving starlings and falcons .................................................................................. 62 7.1.3 ‐ Metric vs topological distance ........................................................................................... 67 7.1.4 ‐ Performance testing .......................................................................................................... 68 7.2 ‐ Evaluation ................................................................................................................................. 70 8 ‐ Summary and further work .............................................................................................................. 74 8.1 ‐ Summary ................................................................................................................................... 74 8.2 ‐ Further work ............................................................................................................................. 75 8.2.1 ‐ 3D modelling ...................................................................................................................... 75 8.2.2 ‐ Obstacles ............................................................................................................................ 75 8.2.3 ‐ Walls................................................................................................................................... 75 8.2.4 ‐ More intelligent steering algorithms ................................................................................. 75 8.2.5 ‐ Larger scenes ..................................................................................................................... 76 8.2.6 ‐ Viewing angle attribute ..................................................................................................... 76 8.2.7 ‐ Collision penalty ................................................................................................................. 76 8.2.8 ‐ Wind ................................................................................................................................... 76 8.2.9 ‐ Separate behavioural attributes for falcons and starlings................................................. 77 8.2.10 ‐ Killing and evolution modelling ....................................................................................... 77 8.2.11 ‐ Variable speeds ................................................................................................................ 77 8.2.12 ‐ Migration urge ................................................................................................................. 78 8.2.13 ‐ Custom initial bird placement .......................................................................................... 78 8.2.14 ‐ Algorithmic optimisations ................................................................................................ 78 Appendix A – Related work ................................................................................................................... 79 Bibliography .......................................................................................................................................... 80 4
https://www.pdf-archive.com/2011/05/07/dissertation/
07/05/2011 www.pdf-archive.com
Falcon Project Cover Page 1 69%
George, Utah, concluded that aerial survey by means of UAVs had the best potential to solve the mystery of North America's great ape - tlre sasquatchr.
https://www.pdf-archive.com/2016/02/08/falcon-project-cover-page-1/
08/02/2016 www.pdf-archive.com
GK43 Pierce Arrow 100' Ladder Aerial Platform T A 67%
Free Shipping Only Auctions Great offers about.com ▼ (3.5) Price Alerts All categories Without Auctions Oshkosh Trucks Search for Oshkosh Trucks. Find Expert Advice on About.com. About.com Home The About.com Story Search About.com 1980 Pierce / Osh Kosh Pierce Arrow V1844M Pierce Arrow 100' Ladder Aerial Platform T/A Fire Truck Detroit Diesel bidadoo Item condition:
https://www.pdf-archive.com/2016/12/12/gk43-pierce-arrow-100-ladder-aerial-platform-t-a/
12/12/2016 www.pdf-archive.com
Falcon Project PR.com 3 65%
George, UT, October 08, 2012 rneans of an aerial search for an unrecognized North American primate, a.k..a.
https://www.pdf-archive.com/2016/02/08/falcon-project-pr-com-3/
08/02/2016 www.pdf-archive.com
Compass-Brochure-2017 63%
866) • 800W Stainless Steel microwave, fully ventilated, with microwave isolation switch • Teleco Teleplus X2/39U Directional Aerial • CD Radio tuner with MP3 connectivity, USB input with charging facility and speakers • AL-KO galvanised steel chassis with AL-KO AKS 3004 stabiliser and ATC Trailer Control System.
https://www.pdf-archive.com/2020/03/06/compass-brochure-2017/
06/03/2020 www.pdf-archive.com