3d Systems Cubex Duo
Jennell Venier
The building also includes nontraditional collaboration areas that various tenants use for open meetings. In order to include remote callers in these conversations, CUBEX ONE needed an audio solution that could also be mobile.
Nureva has simplified everything about audio conferencing. Installation is an easy job you can do in about 30 minutes. You get true full-room coverage without the cost and hassles of multicomponent systems. And you can manage Nureva audio from anywhere.
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Bullhorn is part of a larger staffing & recruiting ecosystem that requires tech experts to efficiently run. You name the Bullhorn partner & we can work with them. In fact, we have great working relationships with most major vendors, which increases the potential workflows & possibilities for customers like you.
I-CubeX comprises a system of sensors, actuators and interfaces that are configured by a personal computer. Using MIDI,Bluetooth or the Universal Serial Bus (USB) as the basis for all communication, the complexity is managed behind a variety of software tools, including an end-user configuration editor, Max (software) plugins, and a C++ Application Programming Interface (API), which allows applications to be developed in Mac OS X, Linux and Windows operating systems.
Usage is primarily focused on allowing exploration and construction of alternative physical computer interaction systems, but have most notably been adopted by music enthusiasts, as they greatly simplify musical instrument mods and creation of novel electronic musical instruments, MIDI controllers and audio control surfaces (such as presented at NIME), e.g. for electronic music generation, and visual artists, as they greatly simplify interactive installation art and electronic art (such as presented at Ars Electronica and SIGGRAPH). In both cases, it is extensively used for teaching.[1][2][3][4][5][6][7] It allows the construction of complex interactive systems out of simpler components. I-CubeX is designed and produced by Infusion Systems.
I-CubeX arose out of a research project in 1995[8] directed by Axel Mulder at the Department of Kinesiology, Simon Fraser University to address the need for better tools for artists to create interactive art and for musicians to more easily create or modify musical instruments. It was inspired by projects such as STEIM's Sensorlab. While I-CubeX helped opening up access to technology for artists interested in sensor technology, it in itself inspired others to create new technology.
The field evolved into physical computing and it was followed by the creation of a number of other generic platforms for applying sensor technology in the (performing) arts such as Arduino, as well as the development of very application specific sensors for human interfacing and human interface devices. While the focus of I-CubeX technology was initially on translating sensor signals to MIDI (Digitizer, microDig) for music enthusiasts, the transmission protocols now include Bluetooth Low Energy and WiFi (WiDig), Bluetooth Classic (Wi-microDig) and USB (WiDig, USB-microDig) so as to facilitate its use by all kinds of researchers and engineers, as well as MIDI.
It would be great if someone could come up with a method to crack open this box and make it accessible. So many aspects of Simplify3d that would make a half-way decent printer all the better. The negatives of the Cube3d are tolerable, albeit expensive.
Gcode is the set of commands that your computer sends to the printer to tell it what to do, they tend to consist of a lot of move commands, so move to XYZ coordinate and move the extruder E mm while doing so. Slicing is the process of taking a 3D model and creating the list of gcode commands necessary to make the printer recreate that 3D object.
The problem is, the Cube series uses BFB gcode which is short for bits from bytes gcode. Bits from bytes was another 3D printer manufacturer that 3D systems bought and used to make the Cube series, so they carried forward the BFB list of commands rather than using the standard gcodes other printers use.
@Stephen_Baird Cura has support for BFB style extrusion. The Cube does require a special header or it will not accept the file. I cannot find the topic about it right now, but people did get it working with some minimal find&replace action afterwards.
The Cube Black autopilot is a further evolution of the Pixhawk autopilot. It is designed for commercial systems and manufacturers who wish to fully integrate an autopilot into their system. On top of the existing features of Pixhawk, it has the following enhancements:
The entire flight management unit(FMU) and inertial management unit(IMU) are housed in a relatively small form factor (a cube). All inputs and outputs go through a 80-pin DF17 connector, allowing a plug-in solution for manufacturers of commercial systems. Manufacturers can design their own carrier boards to suite their specific needs.
This section details the pin assignments of the standard carrier board of The Cube. There are other types of carrier boards available, please refer to the manufacturer pages for pinouts of specific carrier board.