{"batchcomplete":"","continue":{"lecontinue":"20210116120627|1","continue":"-||"},"query":{"logevents":[{"logid":11,"ns":0,"title":"MSO28 Registers","pageid":10,"logpage":10,"params":{},"type":"create","action":"create","user":"173.54.17.33","anon":"","timestamp":"2021-01-16T12:45:58Z","comment":"Created page with \"==MSO-28 control registers==  ==Serial port setup== Simulated Serial port, Virtual Com port -> USB -> Parallel FPGA Baud Rate 460800, 8N1  Buffer threshold 3072  ==Attention k...\""},{"logid":10,"ns":0,"title":"WebMSO28fcgi","pageid":9,"logpage":9,"params":{},"type":"create","action":"create","user":"173.54.17.33","anon":"","timestamp":"2021-01-16T12:41:54Z","comment":"Created page with \"==WebMSO28 client== The WebMSO28 client queries the server that status of the MSO28 via fgci. Below are the some sample calls and command list ==Calls==  Todo ==Command==  Tod...\""},{"logid":9,"ns":0,"title":"PiLCD Setup","pageid":8,"logpage":8,"params":{},"type":"create","action":"create","user":"173.54.17.33","anon":"","timestamp":"2021-01-16T12:39:33Z","comment":"Created page with \"== PiLCD == The goal of PiLCD module is provide a convenient way for the user to interact with a headless Raspberry Pi.  The PiLCD module consists of a 16x2 LCD display with a...\""},{"logid":8,"ns":0,"title":"Wifi AP setup","pageid":7,"logpage":7,"params":{},"type":"create","action":"create","user":"173.54.17.33","anon":"","timestamp":"2021-01-16T12:39:03Z","comment":"Created page with \"= PiMSO Access Point setup == The recommended Wifi adapter for PiMSO project is the Tenda W311M from MicroCenter[http://www.microcenter.com/product/373032/W311M_150Mbps_Wirele...\""},{"logid":7,"ns":0,"title":"OpenCV 4 Android","pageid":6,"logpage":6,"params":{},"type":"create","action":"create","user":"173.54.17.33","anon":"","timestamp":"2021-01-16T12:37:03Z","comment":"Created page with \"== OpenCV \u2013 introduction to Android development ==  == Getting Started == This project assumes that you will be working within a Windows 7 or newer operating system.   == Se...\""},{"logid":6,"ns":0,"title":"MGB","pageid":5,"logpage":5,"params":{},"type":"create","action":"create","user":"173.54.17.33","anon":"","timestamp":"2021-01-16T12:36:18Z","comment":"Created page with \"MGB is a LEGO Mindstorms to Gamepad Bridge that utilizes the low cost Raspberry Pi computer.  Traditionally a LEGO Mindstorms robot requires a computer to write and download t...\""},{"logid":5,"ns":0,"title":"PiMSO19","pageid":4,"logpage":4,"params":{},"type":"create","action":"create","user":"173.54.17.33","anon":"","timestamp":"2021-01-16T12:35:37Z","comment":"Created page with \"==PiMSO19== The PiMSO-19 lets you run the MSO-19 USB based Oscilloscope/Logic Analyzer from a Raspberry PI.  The Oscilloscope is controlled via the browser on your smartphone,...\""},{"logid":4,"ns":0,"title":"PiMSO","pageid":3,"logpage":3,"params":{},"type":"create","action":"create","user":"173.54.17.33","anon":"","timestamp":"2021-01-16T12:35:06Z","comment":"Created page with \"==PiMSO== The PiMSO lets you run the MSO-28 USB based Oscilloscope/Logic Analyzer from a Raspberry PI.  The Oscilloscope is controlled via the browser on your smartphone, tabl...\""},{"logid":3,"ns":0,"title":"Edison-Scope","pageid":2,"logpage":2,"params":{},"type":"create","action":"create","user":"173.54.17.33","anon":"","timestamp":"2021-01-16T12:33:35Z","comment":"Created page with \"==Edison-Scope== The Edison-Scope lets you run an USB based Oscilloscope/Logic Analyzer from an Intel Edison.  The Oscilloscope is controlled via the browser on your smartphon...\""},{"logid":2,"ns":2,"title":"User:JyehLink","pageid":0,"logpage":0,"params":{"userid":3},"type":"newusers","action":"create","user":"JyehLink","timestamp":"2021-01-16T12:17:48Z","comment":""}]}}