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It's definitely deformable, but I'm not sure how this unit prevents seepage, or even what they mean by that. This is a folding lamp that can be angled to suit the area you want illuminated, while also conveniently fitting into a small shipping box. The construction seems OK, although the power dissipation and plastic casing is a bit concerning for LED longevity. The driver layout looks OK and is quite neat. If you enjoy these videos you can help support the channel with a dollar for coffee, cookies and random gadgets for disassembly at:- 🤍 (extra streams and channel interaction) Or alternatively:- 🤍 This also keeps the channel independent of YouTube's advertising algorithms allowing it to be a bit more dangerous and naughty. #ElectronicsCreators
Deformable Neural Radiance Fields Keunhong Park, Utkarsh Sinha, Jonathan T. Barron, Sofien Bouaziz, Dan B Goldman, Steven M. Seitz, Ricardo Martin-Brualla Project Website: 🤍
Deformable mirror using thermal actuators. Route to DIY adaptive optics for hobbyists? Maybe not, but it is an interesting demonstration project! Also, new shop who dis? Apologies for audio and sketchy camera work. Crisp cinematography and audio will be back soon 😅 🥰 CONSIDER SUBSCRIBING 🥰 🔬Patreon if that's your jam: 🤍 ☕Or buy me a coffee? 🤍 📢Twitter: 🤍 📷Instagram: 🤍 💻Discord: 🤍 Links - Vdovin, G., and M. Loktev. "Deformable Mirrors with Thermal Actuators." Adaptive Optics for Industry and Medicine. Springer, Berlin, Heidelberg, 2005. 17-24.Vdovin, Gleb, and Mikhail Loktev. 🤍 - "Deformable mirror with thermal actuators." Optics letters 27.9 (2002): 677-679. 🤍 Timeline 0:00 Intro 0:47 Thermally-actuated deformable mirror 1:57 Temperature probing 3:00 Adaptive Optics 5:30 Failed attempts to quantify the deformation 8:58 Test indicator probing 10:07 Is this practical?
Deformable DETR: Deformable Transformers for End-to-End Object Detection Course Materials: 🤍
Strength of Materials Chapter 1 Stress 1.1 Introduction 1.2 Internal Forces & Stress 1.3 Normal Stress 1.4 Shear Stress 1.5 Bearing Stress #StrengthofMaterials #MechanicsofDeformableBodies #CivilEngineering #CEBox #Engineering #NormalStress #ShearStress #BearingStress Credits: 1. Intro Template: 🤍 2. Music: 2.1 Driven to Succes by Scott Holmes, Source: 🤍 2.2 Instrumental (Guitar) by Carl Ernest Tayag, check his channel: 🤍 Comment your suggestions or questions here. Thanks for watching! Subscribe now for more videos and click the bell icon for notifications. God bless! :) 🤍thatguyslater (Hope mapansin mo po Engineer. Pasupport po sir para mas marami pa pong mareach na student ang 🤍CEBox thru this channel. God bless Engineer!)
I had a few requests to get one of these and take it to bits, so here it is. It's a fairly high power 60W (50W) light with three panels that can be aimed independently to light specific areas of a space. It's described as being an industrial high-bay style lamp but has a lot of other uses. The temperatures I measured were lower than expected. The back of the heatsink remained at a touchable temperature at around 45C at the centre and quickly diffusing the heat through the generous and stylish heatsink. Of more concern was the circuitry temperature with the back of the PCB measuring 80C when I removed the cover and then dropping a bit when there was airflow. It suggests that an extra strategically drilled hole or two in the top could allow better airflow through the driver section. The large foam pad that holds the PCB in place also presses right against the back of one of the drivers, including what could be a track area intended to dissipate heat - so it may accelerate the failure of the middle driver. You can get these lights from banggood and on eBay. Here's a generic eBay search link:- 🤍 Not sure I'd recommend the plastic version for heat dissipation reasons. Target price is around $25 shipped. Make sure you get the right voltage version if there are options. You may also get colour temperature options. I've had a few reports of people getting shocks from metal housings on LED lamps and tubes. There's very little clearance and no grounding in many of these devices so it's inevitable that some will become live either through manufacturing flaws, shipping damage or failure. I always recommend that if you are installing new lamps with the power on, you make sure there is no easy current path to ground through your body. If in doubt, turn the power off or wear a glove on the hand you are using to put lamps in. If you enjoy these videos you can help support the channel with a dollar for coffee, cookies and random gadgets for disassembly at:- 🤍 This also keeps the channel independent of YouTube's advertising algorithms allowing it to be a bit more dangerous and naughty.
Se puede ver como se inclina la rueda según el tipo de suspensión
Find further free content here: 🤍 The video shows an excerpt from the online training NX CAD SECRETS. Video Content: I have made the experience, that people struggle with deformable parts because of the specific reasons shown in the video. The Datum Coordinate System from the UG tools seed part and references of measurements to drive the size of the parts. After watching this video, you will be able to create deformable parts without fails and general success! By the way - we offer a Siemens NX online training concerning modeling methods. Just get in contact (; Further information can be obtained via info🤍bizlearn.de Impressum: 🤍 Background music composed by Aleksandr Shamaluev | © MotionElements Pte. Ltd.
kinetiX is a transformable material featuring a design that resembles a cellular structure. It consists of rigid plates or rods and elastic hinges. These modular elements can be combined in a wide variety of ways and assembled into multifarious forms. Learn more: 🤍 Note: Video has no spoken audio. Music plays throughout.
A trailer video for IROS 2020 workshop on Managing Deformation: A Step Towards Higher Robot Autonomy To watch the full interactive sessions with our invited speakers please check: 🤍 Coming soon!
Defining deformable components is a method that allows you to present a component within NX in multiple configurations. This feature allows you to have a single assembly that is able to take on multiple forms. _ Our Website: saratech.com Twitter: 🤍 Facebook: 🤍 LinkedIn: 🤍 Questions? Call 949-481-3267 or info🤍saratech.com
In the future when we're all using quantum computers we'll make the world from nodes & beams. My Discord: 🤍
If you have any copyright issues on video, please send us an email at khawar512🤍gmail.com
Adaptive optics using deformable mirror to fix aberrations - CLEO 2018 by Alpao TilTul 🤍 LinksYouWantToRemember CIMG3367 Adaptive optics deformable mirror fixes aberrations by Alpao
Serway and Jewett, 10th Edition, Chapter 09, Section 8
Schematic of continuous surface deformable mirror actuators in motion. Learn more: 🤍
This video shows an example of computing normal stress
발표자: DSBA연구실 석사과정 소규성 [1] 논문 링크: 🤍 [2] official github: 🤍 [3] DETR 발표 영상(소규성): 🤍
Strength of Materials Chapter 1 #Stress 1.1 Introduction 1.2 Internal Forces & Stress 1.3 Normal Stress 1.4 Shear Stress 1.5 Bearing Stress #StrengthofMaterials #MechanicsofDeformableBodies #CivilEngineering #CEBox #Engineering #NormalStress #ShearStress #BearingStress Credits: 1. Intro Template: 🤍 2. Music: 2.1 Driven to Succes by Scott Holmes, Source: 🤍 2.2 Instrumental (Guitar) by Carl Ernest Tayag, check his channel: 🤍 3. Images: Structural Analysis by Hibbeler, 8th Edition, Engineering Mechanics by Hibbeler, 14th Edition Comment your suggestions or questions here. Thanks for watching! Subscribe now for more videos and click the bell icon for notifications. God bless! :)
Hello Guys, Welcome to our channel Pro_things In this video I have explained the the use of Deformable function in NX and its different options. If you have any questions related to NX. Do comment I will try to cover that topic in my upcoming videos. If you like this tricks do subscribe my channel and press like button. Finally Thanks for Watching.
S. Coros, S. Martin, B. Thomaszewski, C. Schumacher, R. Sumner, M. Gross: Deformable Objects Alive! We present a method for controlling the motions of active deformable characters. As an underlying principle, we require that all motions be driven by internal deformations. We achieve this by dynamically adapting rest shapes in order to induce deformations that, together with environment interactions, result in purposeful and physically-plausible motions. Rest shape adaptation is a powerful concept and we show that by restricting shapes to suitable subspaces, it is possible to explicitly control the motion styles of deformable characters. Our formulation is general and can be combined with arbitrary elastic models and locomotion controllers. We demonstrate the efficiency of our method by animating curve, shell, and solid-based characters whose motion repertoires range from simple hopping to complex walking behaviors. Proceedings of ACM SIGGRAPH (Los Angeles, USA, August 5-9, 2012), ACM Transactions on Graphics, vol. 31, no. 4, pp. 69:1-9 More publications from the CGL can be found here: 🤍
Strength of Materials Chapter 3 #Torsion 3.1 #TorsioninCircularShaft 3.2 #TorsionofThin-WalledTubes 3.3 #TorsionofRectangular Bars Credits: 1. Intro Template: 🤍 2. Music: 2.1 Driven to Succes by Scott Holmes, Source: 🤍 2.2 Instrumental (Guitar) by Carl Ernest Tayag, check his channel: 🤍 Comment your suggestions or questions here. Thanks for watching! Subscribe now for more videos and click the bell icon for notifications. God bless! :) #StrengthofMaterials #MechanicsofDeformableBodies #CEBox #CivilEngineering #Engineering
For more information please visit 🤍willowgarage.com
ALPAO Deformable Modal Mirrors (DMM) provide an excellent correction of the most common optical aberrations. Each control channel corresponding to one optical mode (e.g. focus or astigmatism), the control is straightforward. It was designed to be easily integrated into systems with an embedded electronics and a standard tube packaging. More details: 🤍
This is the demonstration video for the paper titled "Tombo propeller: Bioinspired Deformable Structure toward Collision-Accommodated Control for Drones" published by IEEE Transactions on Robotics (2022) DOI: 10.1109/TRO.2022.3198494 Access Link: IEEE explorer: 🤍
#tutorjackph #mechanicsofdeformablebodies #normal strain #simpleconnections #strengthofmaterials #stress #tutorial #lecture Mechanics of Deformable Bodies deals with applied forces and their internal effects on objects. Video description: This video discusses the concept of normal strain. Sample Problem: The rigid beam is supported by a pin at A and wires BD and CE. If the load P on the beam causes the end C to be displaced 10 mm downward, determine the normal strain developed in wires CE and BD. Subscribe to get the most of this channel. Mechanics of deformable bodies playlist: 🤍 Hydrology playlist: 🤍 Integral Calculus playlist: 🤍 QGIS playlist: 🤍 Hydraulics playlist: 🤍 Statics of rigid bodies playlist: 🤍 Comment, suggest, request, like, share and enjoy! 🤙
When pandemic started, it dawned on me , I might as well use my YT channel which I created about 10 years ago but haven't used it much for the last decade. I decided to push through with it and reach out to as many learners I could and continue improved instructional delivery. Hi, I am Dr. Ram, get to know me better ... a daughter, daughter-in-law, wife, mother, friend, colleague, professor, civil engineer with more than 2 decades in engineering and academe profession who just wanted to share my life, my passion, my mission, my calling, my 3Ts in life ... time, talent and treasure #sharingiscaring
Our framework can work with deformable objects which are hard to track, since it works from vision and doesn't require state estimations nor for the reward function, nor for the policy. 🤍 🤍
RockLight Deformable LED Lamp. Best Buy Click 👇 🤍 Topics cover in this video How to use deformable LED light, Deformable LED light ko kaise use karte hain, = you can buy:- My Own Online Store 🤍 = 🎥 OTHER POPULAR VIDEO ON BLUETOOTH SPEAKER 🎥 🔥 How to repair boat stone 170 Bluetooth speaker 🤍 🔥 Bluetooth speaker not charging problem 🤍 🔥 Bluetooth speaker TG113 board repair 🤍 🔥 How to increase battery backup in tg113 Bluetooth speaker 🤍 🔥 How to repair Bluetooth speaker cracking sound 🤍 🔥 How to make Bluetooth speaker with bornvita zar 🤍 🔥 How to convert old sony home theatre int to Bluetooth speaker 🤍 🔥 How to convert any old led bulb in to Bluetooth speaker 🤍 🔥 How to repair sound problem in Bluetooth speaker 🤍 🔥 How to repair charging problem in Bluetooth speaker tg106 🤍 🔥 How to repair Bluetooth speaker charging port 🤍 🔥 How to make a world's smallest Bluetooth speaker 🤍 🔥 How to repair saregama Bluetooth speaker 🤍 🔥 Low battery please charge problem in tg113 Bluetooth speaker 🤍 🔥 How convert normal home theatre in to Bluetooth home theater 🤍 Follow us on social media :- Facebook page : 🤍 Twitter : 🤍 instagram :- 🤍 Contact us. For business related enquiry and paid promotion ashoka012020🤍gmail.com #insidetech #ledbulb #ledlights #ledlamp
In this video we show you how to create a deformable part for a hose. If you have any questions, feel free to leave a comment, or visit our website. Thanks! 🤍
AI in Robotics Reading group is organized by the Faculty and Students at the Dept. of Computer Science, University of Toronto for students across the world to present and interact with the Toronto Robotics Community. Check out: 🤍
This video tutorial presents the modeling of a deformable sealing in an assembly. WAVE Geometry Linker and interpart expression are used to set the correct parameters. Throttle body adapter can be downloaded from here: 🤍
Video accompanying the paper "Learning where to trust unreliable models in an unstructured world for deformable object manipulation," P. Mitrano, D. McConachie, and D. Berenson, Science Robotics, Vol. 6, Issue 54, May 2021.
"Learning Predictive Representations for Deformable Objects Using Contrastive Estimation Wilson Yan (UC Berkeley)*; Ashwin Vangipuram (UC Berkeley); Pieter Abbeel (UC Berkeley); Lerrel Pinto () Publication: 🤍 Abstract Using visual model-based learning for deformable object manipulation is challenging due to difficulties in learning plannable visual representations along with complex dynamic models. In this work, we propose a new learning framework that jointly optimizes both the visual representation model and the dynamics model using contrastive estimation. Using simulation data collected by randomly perturbing deformable objects on a table, we learn latent dynamics models for these objects in an offline fashion. Then, using the learned models, we use simple model-based planning to solve challenging deformable object manipulation tasks such as spreading ropes and cloths. Experimentally, we show substantial improvements in performance over standard model-based learning techniques across our rope and cloth manipulation suite. Finally, we transfer our visual manipulation policies trained on data purely collected in simulation to a real PR2 robot through domain randomization.
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![[Paper Review] Deformable DETR: Deformable Transformers for End-to-End Object Detection](https://i.ytimg.com/vi/YuFqxh3XvY0/mqdefault.jpg "[Paper Review] Deformable DETR: Deformable Transformers for End-to-End Object Detection")
