ENU/MotionBuilder/images/GUID-9B0CF298-DD3F-4B2A-A6D8-FE6AFDA988D5.png' alt='Human Figure 3D Max' title='Human Figure 3D Max' />Greetings andor salutations, people Welcome to io9s occasionally weekly mail column, where I solve the mysteries of the world of nerddom to you, both fictional. If we did find alien life, it would be the biggest discovery in human history. Most scifi tells us this will likely end poorly, but some of us choose to believe. Available for free download in any 3d formats. Become a ZBrush Insider Dont miss out. Sign up to access exclusive tools, tutorials and giveaways available only to our subscribers. Poser is a 3D computer graphics program Distributed by Smith Micro Software. Poser is optimized for 3D modeling of human figures and has gained popularity due to. Answer In a nutshell, the Human Trafficking Prevention Act 1 reduces crime by making prostitution hubs, child pornography, revenge pornography, and obscenity, as. Poser Pro 1. 1 Professional 3. D Character Art and Animation Software Smith Micro. Poser is a 3. D universe to illustrate and animate in. Whether youve just begun or youre a seasoned professional, Poser is your gateway to an experience that is infinitely creative. Design your 3. D world with gigabytes of included content from Posers library. Set the scene with real world props and 3. D elements. Populate and animate scenes with ready to pose, fully textured animals and humans. Start making 3. D art and animation in minutes. Poser Pro includes all Poser 1. Pro ONLY features. Thank you to the following contributing artists for allowing their work to be featured in this video Rooster Teeth Productions RWBY, Tasos Anastasiades, Paul Francis, Philip Morgan and Kevin Gahan. A special thank you to Steve Harms Earthling Arts. See how Poser can help you throughout your creative process Whether you create for interactive media, animation or the web, theres always a need to integrate the human form. Poser delivers the power of interactive 3. D figure design, offering infinite opportunities to portray human diversity, form and expression. Design with the human form for art, illustration, animation, comics, web, print, education, medical visualization, games, storyboarding, pre visualization and more Figure Design. Poser makes working with the human form easily accessible with an intuitive user interface. Human and animal models are included for you to start designing and posing immediately. Click and drag to sculpt faces, pose body parts, or create various ethnic varieties. For those who require finer control full body morphs, facial expression morphs, and bone rigging are available for any figure. All features and models are provided in a natural 3. D environment for realistic depth, lighting and shadowing on any figure in any pose. Quickly and easily create shape variations with Posers brush based morphing tools. Poser Wireframe. Poser Color. Poser Rendered. Content. With Poser, human and animal models are prepared for you to start designing and posing immediately. Figures are pre rigged so artists can click and drag to pose body parts, sculpt faces, or create ethnic varieties. Thousands of poses, morphs, clothing, hair, materials, and accessories are included. Posers powerful lighting and rendering tools deliver high quality artistic effects. Create renders with natural lighting, shadows, subsurface scattering for realistic looking skin, caustics and volumetrics for smoke, fog and cloud effects. Customize your final output in many styles, including photorealism, sketch, cartoon, silhouette, real time comic book mode and more. Pauline Super. Fly Render. Andy Super. Fly Render. A Darker Light. Natural Beauty. Edgar Super. Fly Render. Rocks Super. Fly Render. Room Super. Fly Render. King Tut Super. Fly Render. Animation Posers animation tools help you create stunning, realistic animations without much of the repetitive work involved in animating figures. Poser includes automatic keyframe creation, non linear animation, lip syncing and a walk simulator to simplify the animation process. Simulation. Dynamic props and bullet physics move with your figure and add realism, bounce and jiggle to your animations. Clothing, table cloth, curtains drape and deform just as they do in real life, while hair can be grown, styled and controlled dynamically as if blown by the wind. Fit for Professional Creative Environments, Poser. Fusion plug ins transform Poser into a character animation pipeline that will transport your Poser scenes into 3ds Max, Maya, CINEMA 4. D and Light. Wave. Perfect for users working in industrial and architectural design, pre visualization, theatrical set design, gaming prototype development, storyboarding, illustration and animation. Poser. Fusion will enable you to add 3. D Poser characters to any project, saving you time and resources. Bullet Physics Softbody Mushroom. D Printed Smartphone Indirect Lens Adapter for Rapid, High Quality Retinal Imaging. David Myung, MD, Ph. D1, Alexandre Jais, MS1, Lingmin He. MD, MS1, Mark S. Blumenkranz, MD1, Robert T. Chang, MD1. 1Byers Eye Institute at Stanford, Stanford University School of Medicine, Stanford, California. Corresponding Author viropticgmail. Journal MTM 3 1 91. Obtaining a secure, photographic record of clinical findings during patient encounters can serve as a powerful adjunct to the otherwise text heavy documentation that dominates modern electronic health record systems. This is particularly true in ophthalmology, which is one of several medical specialties that relies heavily on images for diagnosis and treatment. Conventionally, ophthalmic imaging has required expensive, tabletop units operated by a trained technician in an outpatient clinic setting. The ubiquity and evolution of smartphones into both high resolution cameras and conduits for encrypted data transfer has the potential to change this however, their use is inherently limited by the optics and lighting required to image the eye, and in particular, the retina. Here, we report the development of a lightweight, compact, user friendly, 3. D printed attachment enabling high quality fundus photos by coupling smartphones to indirect ophthalmoscopy condensing lenses. The attachment is designed to hold a specific lens at a prescribed but adjustable distance from the camera lens, can utilize either the phones native flash for lighting or another coaxial light source, and has the potential to be operated with one hand. Using both mechanical prototypes and subsequent 3. D printed versions of the device, we were able to photodocument a variety of both normal and abnormal retinal findings. Introduction. Image capture in ophthalmology is used extensively for disease documentation, treatment monitoring, and education. Traditionally, this has relied upon expensive, tabletop units operated by a trained technician in an outpatient clinic setting. The pervasive adoption of smartphones by physicians and the ever improving built in camera technology has spurred much interest in their use for ophthalmic imaging. These developments, along with improvements in cloud storage, electronic medical records accessible by smartphone, and encryption technology, now present the opportunity for a wholly smartphone based teleophthalmology system. In January 2. 01. FDA approved the i. Examiner Welch Allyn, Skaneateles Falls, NY, the first smartphone based imaging adaptor system that attaches an i. Phone 4 Apple Inc, Cupertino, CA to Welch Allyns Panoptic Ophthalmoscope to capture images of the retina in combination with the i. Examiner App. Before i. Examiner, several groups had created various slit lamp adaptors that could also capture retinal images. More recently, investigators have published on results of using smartphones in conjunction with indirect ophthalmoscopy condensing lenses, a standard examination technique familiar to all eyecare providers. Of note, Haddock et al. Phone application that allows control of the native flash as an adjustable light source, which reduces its light intensity to safe levels for indirect ophthalmoscopy. Our group has also been exploring various technologies and approaches to smartphone based fundus photography, with a particular focus on how to do so without adversely impacting clinical workflow. To this end, we have sought to develop a way for practitioners to more easily image the retina with their smartphones without the need for a slitlamp or a Panoptic ophthalmoscope while also minimizing the challenge and time required to manually align a lens, light source, and camera over a patients eye. Here, we report the development of our first generation, compact, user friendly, attachment that mounts a typical condensing lens for indirect ophthalmoscopy to a smartphone. The device is a lightweight, 3. D printed adapter that directly and reversibly couples i. Summon Night Craft Sword 3 Rom. Phones 4 and higher to standard indirect ophthalmoscopy condensing lenses. The attachment is designed to hold a specific lens at a prescribed but adjustable distance from the camera lens, is easily assembled and disassembled if desired, and can utilize either the phones native flash for lighting or another coaxial light source. With both mechanical prototypes and subsequent 3. D printed versions of the device, we were able to quickly photodocument a variety of retinal pathologies. Methods. We started with a computer aided design CAD model of a lens mount customized to the Panretinal 2. Volk Optical, Inc. Montor, OH condensing lens, with a slight undersized fit to allow gripping of the lens for easy insertion and removal. The mount was designed with the Space. Claim 2. 01. 2 CAD package Space. Claim Corporation, Concord, MA. The initial 3. D printed mount was manufactured on a desktop Rostock Max fused deposition modeling FDM 3. D Printer Open Source design by See. Me. CNC, Goshen, IN built by author AS in Stanford, CA. A mechanical prototype was then configured by screwing the 3. D printed lens mount to the distal end of an assembly of digital SLR photography mounting accessories a ball head camera mount with extender Videosecu, Carrollton, TX, a mini ball head camera mount Giottos, Pine Brook, NJ, and a universal smartphone tripod mount Square Jellyfish, USA Figure 1a. A ray tracing of the optics of this lens adapter system, which is based on the optics of indirect ophthalmoscopy, is shown in Figure 1b. Figure 1a Mechanical prototype of lens to smartphone mount with 3. D printed Panretinal 2. Figure 1b Ray tracing not to scale of the optics of the lens adapter system. This prototype was then tested clinically to see if high quality images could be obtained and whether the alignment and working distances were correct. Once these were confirmed, another CAD iteration was made on Space. Claim Figure 2a. The full adapter design includes the lens mount, a smartphone adapter and a telescopic arm. This design was printed at the Stanford Product Realization Laboratory Room 3. D Systems Rock Hill, SC Pro. Jet 3. 50. 0 HD Multi Jet Modeling MJM 3. D Printer at a 3. Visi. Jet Crystal material acrylic like was used for the part as well as wax support material, which was removed after a post processing step wax melting and sonication Figure 2b. The mount shown in Figure 2c was designed to allow the user to hold the phone upright with one hand Figure 2d and to use the other hand to stabilize if needed but not actually hold the mounted lens over the patients eye. Figure 2a CAD rendering of lens to smartphone mount. Figure 2b Raw 3. D printed lens mount with support material. Figure 2c 3. D printed acrylic lens to smartphone mount based on CAD design in Figure 2a. Figure 2d Volk Panretinal 2. Phone 5. Figure 2e Screenshot of adapter and condensing lens in place as imaged through the Filmic. Pro application with constant flash on lowest intensity indicated by the blue arrow. The Institutional Review Board at Stanford has approved the collection and analysis of fundus images using our system throughout the hospital Protocol 2. Smartphone fundus images were captured with an i. Phone 5 Apple Inc., Cupertino, CA, USA a Panretinal 2. Volk Optical Inc., Mentor, OH, USA, and our lens attachment in dilated patients.