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#Omniplayer v1.00 full version
#Omniplayer v1.00 720p
#Omniplayer v1.00 serial
#Omniplayer v1.00 pro

#Omniplayer v1.00 720p

With hardware decoding, you can easily play various 4K/ 1080P/ 720P HD videos with normal/lossless audio. With powerful features and a modern look. It is a comprehensive media player for any video & audio format.

#Omniplayer v1.00 pro

Overview of OmniPlayer Pro - Media Player for macOS It is a comprehensive media player for any video and audio format.

#Omniplayer v1.00 full version

Ser = serial.Free Download OmniPlayer Pro - Media Player full version standalone offline installer for macOS. (self.cursor,w/nbVideos*(videoIndex+0.5)-ds, sy-ds, w/nbVideos*(videoIndex+0.5)+ds, sy+ds) Self.cursor = _oval(w/nbVideos*(videoIndex+0.5)-ds, sy-ds, w/nbVideos*(videoIndex+0.5)+ds, sy+ds, outline=’red’, fill=’red’)įont1 = tkFont.Font(family=’FreeSans’,size=36, weight=’bold’) Image = _image(0, 0, anchor=NW, image=photo) Photo = PhotoImage(file = “icones_videoSelector.gif”) #filename = PhotoImage(file = “icones.png”) Self.canvas = Canvas(self.root, width=w, height = h)

#Omniplayer v1.00 serial

If (max>threshold*n) Serial.println(index) else Serial.println(“nada”) ĭelay(10) // arbitrary delay to limit data to serial port send pin 8 receive/sensor pin 2 receive/sensor pin 3 * Best results are obtained if sensor foil and wire is covered with an insulator such as paper or plastic sheet * Receive pin is the sensor pin – try different amounts of foil/metal on this pin Larger resistor values yield larger sensor values. * Resistor effects sensitivity, experiment with values, 50 kilohm – 50 megohm. 10 megohm between send pin and receive pin here are the codes for arduino and the python code. The GUI is done in python with the library Tkinter. When it’s OK redo debugging with the cans mounted on the final frame because the signals will change and so your adjustments ! Make a first prototype with the arduino and the beer cans alone. It’s somehow rough to adjust the thresholds to make it work quite smoothly. We use 1M resitors and no capacitors ( should I ?, yes…) It could be done directly by the RPI ( see here) but to avoid problems I preferred to separate sensing and interface software. The capacitive sensing is done by following this tutorial. I tried to use the python library pygame but it needs very special video formats. When touching a beer can is detected python use “subprocess” to launch omxplayer: python check thresholds, repetitions and all that sort of things. The RPI runs a python software that basically use serial port to get a permanent flow of 3 capacitive sensors data. The capacitive sensing is done by an arduino board connected to the raspberry PI (RPI) by usb cable. A central hole lets go the wire for capacitive sensing through. The beer cans are fixed by 2 wood screws that go through the frame. We bought the display controller in ebay (yes this is not recycled, working on it…) Once the frame is cut from a palette wood and fixed we place the screen and block it with small wooden pieces. This can be a great tool to communicate your activities to the public in a show, a fair or whatever ! The bars reflect the capacitive signals and turn red when passing a threshold. You touch the left and right beer can to select your video and the middle on to launch it. The “Beer Video Selector” is a project that involve recycling of an old laptop screen.