OK, I guess I will start looking for a lap top for my 2016 C3D portable solution. FYI here is a link of software that runs externally: _of_portable_software Autocad is not on the list. Curiously though, I have a cousin in Europe who would run autocad 2008 from a disc. Now regarding the virtual agent, I have no idea what that is. I do have an in house netwok guy. perhaps he would know?

You can download the installer and keep it anywhere. Most of the actual, installed files (executables, DLLs, and so on) must be on the system drive. Some of the data files can be kept on an external drive but not the program itself. As mentioned before its not only how the OS operates but also the licensing mechanism. Your list of "portable software" doesn't require much (if any) in the way of installation or licensing, unlike Civil3D, so there isn't much of a comparison.

Fusion 360 2016 Portable

Abstract:Recent advances in single-board computer technology have allowed for lightweight, power-efficient devices, such as the Raspberry Pi, to take the place of desktop PCs in certain applications. This has the potential to disrupt the way many current systems are structured, particularly for inventory management and control applications. In this paper, we explore the design and topology of a modular Radio frequency identification (RFID) system for inventory management comprised of self-contained, autonomous scanning, and stationary control PCs in a handheld/portable configuration. While similar solutions for such a system may exist on the commercial market, this proposed development provides a template for an open source flexible, low-cost solution that can be easily expanded to meet the needs of businesses with large and small inventories.Keywords: RFID; Raspberry Pi; inventory control and management; modular system topology

With 2 x 16 W (RMS) / 2 x 11 W (sine) the speaker gives a room-filling and full sound for it's size. The bass is certainly the most impressive part, but the two-way car speakers also deliver clear and brilliant highs, it sounds better than what I'm used to from portable speakers. I'm surprised how well the parallel charging hack worked, with the fast parallel charging trick and dual-color indicator LEDs the whole thing is quite useable.

My wife already received her new portable Bluetooth speaker, and so far she seems to be very happy with it. As said, I might continue this project with a new version, so if you have any ideas, shoot me a comment.

I would say Fusion is about as reliable as Yi 360 VR. Both are reasonably reliable, with only occasional strange behaviors. Sometimes after charging the fusion, it will appear stuck (unresponsive). When that happens, I remove the battery and put it back and it works normally again. In the field, I haven't had it fail on me.

The reason I prefer Gear 360 2017 over 2016 is that 2017 has stabilization that really works (after the 2018 upgrade). Gear 360's overcapture is very simple - you can only choose the initial view. GoPro's overcapture is more sophisticated - like controlling a real camera, being able to zoom, and the virtual camera is also stabilized.

The reason the GoPro Fusion official videos look better than those made by some users is because they use a wider view, which makes it look more detailed. I do that as well for overcapture style videos.FWIW, here is a fusion sample in various lighting conditions, with a normal field of view, and with spatial audio (the sound will change if you change the view): =jNZ1ybTMab4

Concerning the hand, finger flexion and extension exercises, according to the disease of the subject, have an important effect on the recovery (Lum et al., 2002). Moreover, in general, the execution of repetitive movements of the hand and wrist with a controllable intensity is an important part of the rehabilitation process (Dragusanu et al., 2020a). In this context, we focus on the upper limbs and, in particular, on the hand and wrist. They play an important role in all ADLs, and therefore significant research effort is focused on developing exoskeleton devices designed to retrain these parts of the human body (Hesse et al., 2003; Gopura et al., 2016; Rehmat et al., 2018). The aim of hand exoskeletons is to emulate the physical effort of the therapist by producing the same movements able to maintain the physical abilities of the patient. Nonetheless, the presence of the physiotherapist is usually required and covers a supervisor role. The use of hand exoskeletons can be beneficial as it requires a smaller workforce, allows a more lasting and more intense therapy, and reduces the need for long physical contacts and close personal distance between the therapist and the patient.

There are different types of hand exoskeletons that have been developed on the basis of different criteria, that is, size, weight, degrees of freedom (DoF), flexibility, wearability, modularity, and actuation mechanism (Moreno-SanJuan et al., 2021; du Plessis et al., 2021; Shahid et al., 2018). In the studies by Krebs et al., (2007; Gupta et al., (2008; Bartlett et al., (2015; Dragusanu et al., (2020a), the researchers focused on the exoskeleton for the wrist. Hand exoskeleton design is a still open and challenging engineering and research topic since the human hand has a quite complex kinematic structure. Broadly speaking, a fully actuated solution would require an actuator for each DoF, so, in theory, we would need four actuators for each actuated finger (Malvezzi et al., 2020). Rahman and Al-Jumaily (2012) present a fifteen degree of freedom (DoFs) hand exoskeleton based on compliant mechanisms that flex and extend the fingers by using bilateral movement training. In the study by Zhang et al., (2014) a hand exoskeleton for rehabilitation purposes due to injuries is shown. It is actuated by using a Bowden cable setup driven by DC motors, and it can be adjusted to various hand sizes owing to the rack and pinion slide mechanism. The same cable mechanisms are used by Randazzo et al. (2017) and by Marconi et al. (2019). In the study by Popov et al., (2016), the authors present a glove-type exoskeleton that actuates three fingers (excluding the little finger) and the thumb by using tendon cables routed in a glove, while a different design approach is exploited for the hand exoskeletons based on the rigid mechanical structure. These kinds of devices use motors directly connected to the structure that transmit the motion to the required joints. The most popular devices in this area are the ones based on the remote center of rotation (Wang et al., 2018), 4-bar linkage mechanisms (Bianchi et al., 2018), base-to-distal devices with mechanical links connected in series (Jo et al., 2019), and matched axis mechanical structure (Bataller et al., 2016).

In particular, the FDM technique (Fused Deposition Modeling) was used to manufacture all the components. For the design and development of the exoskeleton, we followed a specific procedure, as outlined by Cafolla et al., (2016), that can be briefly summarized in the following: CAD modeling with Autodesk Fusion 360, conversion of the CAD model to STL, and transferring the STL file to the 3D-Printer. For the physical realization, we used the 3D-printer Stratasys F123. The mechanical components were printed using the GrabCAD Print. Components indicated with B, C, D, E, G, and H in Figure 3 were printed with a slicing height of 0.18 mm, while the other components, which did not need a high surface precision, were printed with a slicing height of 0.25 mm.

T4i Engineering Ltd first specialised in designing modular, miniaturised and adaptive chemical detectors, but quickly realised there was a gap on the market: a portable and reasonably priced calibrator for these detectors that could easily be used on-site.

The engineering team at T4i worked on the different iterations of the prototype until they came up with the T4i FemtoMachine DEMO. This was the very first portable device with a size equivalent to an A4 sheet of paper.

Faro, the most innovative portable 3D measurement solution provider for Factory metrology, offers large and small to medium sized manufacturing companies with a way to take 3D measurements and perform 3D inspections with laser precision. A Faro arm is a portable coordinate measuring machine (PCMM) that enables manufacturers to easily assert product quality by performing dimensional analysis, 3D inspections, reverse engineering, CAD comparison, tool certifications, and more. They are extremely useful in production and quality assurance processes.

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NEW YORK, N.Y., March 25, 2016 (GLOBE NEWSWIRE) -- Presidio today announced that it has received the Global VMware Partner Innovation Award in the Software Defined Data Center (SDDC) category. Presidio was recognized at the VMware Partner Leadership Summit 2016, held in Scottsdale, Arizona."I am pleased to recognize a select group of partners who have received a Global VMware Partner Innovation Award. These honorees have distinguished themselves through demonstrated excellence and achievements in 2015," said Ross Brown, senior vice president, Worldwide Partners and Alliances, VMware. "VMware congratulates Presidio on winning a Global VMware Partner Innovation Award, and we look forward to our continued collaboration in 2016.""VMware's recognition of Presidio as their Global Innovation Partner for SDDC is a testament to the investments we've made over the past few years in converged infrastructure, Presidio Managed Cloud, and our acquisition of Sequoia Worldwide to offer specialized cloud consulting, integration and services expertise," stated Bob Cagnazzi, Chief Executive Officer of Presidio. "Presidio can advise customers through their hybrid cloud journey and help them optimize their private, public and managed clouds for scalable, secure, high-performing service delivery. As part of this, SDDC is a key step to virtualization and automation, allowing businesses to become more agile as they deliver and run applications and services from anywhere through a unified platform."Recipients of a Global VMware Partner Innovation Award were acknowledged in 19 categories for their excellence in performance and distinctive achievements during 2015.About VMware Partner Leadership SummitVMware Partner Leadership Summit 2016 offers VMware partners the opportunity to engage with VMware executives and industry peers so as to explore business opportunities, customer use cases, solution practices and partnering best practices. An invitation-only event, VMware Partner Leadership Summit 2016 provides partners with the resources they need to develop and execute a comprehensive go-to-market plan in 2016 and beyond.About PresidioPresidio is a leading US-based IT solutions provider offering consulting, professional services, and cloud and managed services. By taking the time to deeply understand how our clients define success, we architect technology solutions that address their evolving business needs. Our approach blends the credibility to deliver practical results today, with the creativity to drive the business visions of tomorrow. More than 2,700 Presidio professionals, 1,500 of whom are engineers with over 5,800 industry-leading certifications, are based in 60+ offices across the US. We serve over 6,500 clients through a unique, local delivery model while capitalizing on our scale as a $2.8 billion national industry leader. We are passionate about driving results for our clients and delivering the highest quality of service in the industry. Presidio is owned by funds affiliated with Apollo Global Management, LLC (NYSE:APO). For more information, visit www.presidio.comVMware, VMware NSX, vCloud and vCloud Air are registered trademarks or trademarks of VMware, Inc. in the United States and other jurisdictions. All other marks and names mentioned herein may be trademarks of their respective companies.Presidio is a registered trademark of Presidio LLC.SAFE HARBOR STATEMENT:This press release may contain statements regarding beliefs and expectations of the outcome of future events that are forward-looking statements as defined within the meaning of the Private Securities Litigation Reform Act of 1995. Forward-looking statements include all statements that do not relate solely to historical or current facts, and you can identify forward-looking statements because they contain words such as "believes," "expects," "may," "will," "should," "seeks," "approximately," "intends," "plans," "estimates," "projects," or "anticipates" or similar expressions that concern the strategy, plans or intentions of Presidio LLC. These forward-looking statements are subject to risks and uncertainties that may change at any time, and, therefore, actual results may differ materially from management's expectations reflected in our forward-looking statements. Presidio LLC takes no responsibility for updating the information contained in this press release following the date hereof to reflect events or circumstances occurring after the date hereof or the occurrence of unanticipated events. 2ff7e9595c