Hobby Projects - Insulation tester, LED Circuits, Meters.
Showing posts with label Android. Show all posts
Showing posts with label Android. Show all posts

Thursday, February 02, 2017

An Android Brain for your Bot

The Objective - When your Bot has outgrown your Arduino, it wants to talk, an urge to communicate and Network(Social). A larger brain over the smaller control system is the need. Then a Networked Drove of Bots ! is possible.

Hobby DIY Electronics - Do it Yourself, The World Over.

Use the Arduino for emulating the role of the Spine and an Android System for the Big Networked brain. You can hack an Economy Android Phone to make your Robot an Einstein.

Now for Simulating the Soul, which even the most Advanced Robotic Scientist is unaware of; All you need is Cloud.

An Android Brain for your Bot

How to do that

We have to try create some Robots which are Non-Motor based, Soundless, No Rotary action. Minimum Metal Used, Silicone and Epoxy based parts. They will have 3G and Wi-Fi integrated and the Soul, the Intellect and the Instincts can be upgraded In-system online. The Cloud will be God.

Why the need

The Robot in Literature - Coppélia

Coppélia concerns an inventor, Dr Coppelius, who has made a life-size dancing doll. It is so lifelike that Franz, a village swain, becomes infatuated with it and sets aside his true heart's desire, Swanhilde.

She shows him his folly by dressing as the doll, pretending to make it come to life and ultimately saving him from an untimely end at the hands of the inventor.

The Truth - Swanhilde and her friends find themselves in a large room filled with people. However, the occupants aren't moving. The girls discover that, rather than people, these are life-size mechanical dolls. They quickly wind them up and watch them move. Swanhilde also finds Coppélia behind a curtain and discovers that she, too, is a doll.

The sad part of this Opera and The Nutcracker is that Inventors of Bots are shown as Evil Scientists. We have to clear the stigma by making a Giant King Kong Bot.

First written 2008 in other areas, enhanced post till 2012 - An idea by "Bot with a Soul" - delabs

Wednesday, August 10, 2016

Android Hardware Development Kit

The Android Hardware Development Kit is designed for enterprise embedded developers looking for a single, all-inclusive solution for a variety of prototyping needs.

Android Hardware Development Kit

Android Hardware Development Kit is the first Open Hardware solution designed for full hardware customization. Together it is a Open System Design Solution.

Android Hardware Development Kit
Runs with a 720MHz ARM-based, open source BeagleBoard C4

Some Features are
  • Display: 4.3 inch touch display
  • Screen: 480×272 OLED screen
  • RAM: 128MB
  • 32bit Single Core
  • SD Storage: 4GB SD Storage
  • On Board Flash: 256MB
  • 4 USB Host Port Adapter
  • Wi-Fi 802.11b/g
  • Ethernet (RJ-45) USB 2.0 10/100 Ethernet Adapter
  • Video Output: DVI to HDMI
  • Video Output: S-Video
  • Speaker (Stereo Headphone Out): 3.5mm Audio Out

Saturday, April 26, 2014

Open Source Android Oscilloscope

An android virtual instrument - OsciPrime is an Open Source Android high speed data acquisition hardware platform and Android oscilloscope application.

Open Source Android Oscilloscope

Open Source Android Oscilloscope

Using USB, the hardware plugs into Android devices that support USB Host. Together with the OsciPrime Android oscilloscope application it turns a tablet or mobile phone into a high speed data acquisition system.

Android Scope 
OsciPrime Oscilloscope Android App

Hardware Specs:
  • 2x Analogue Input @ 8bit/6Msps
  • 5 analogue gain levels
  • 3.3 MHz - 8.0 MHz Bandwidth (gain dependant)
  • 16 V Max Input Voltage
  • 880 mW Power Consumption
  • Designed for 10x Probes
The Android App Instrument Performance and Controls Include

Controls -V-Offset, Time-Offset, Calibration; Trigger Controls Falling/Rising and Edge, You can Measure Voltage, Freq and Period.  
  • Range +/- 1.5 V up to +/- 16 V
  • 5 us/Div max - 1 ms/Div min 
  • Processing 400'000 samples per second

Friday, June 21, 2013

MarS Board - Freescale ARM Cortex-A9

A super ARM DIY Platform. Measuring only 65.46mm by 102.04mm, the MarS Board is a low-cost highly-integrated controller board based on Freescale’s i.MX 6 Dual ARM Cortex-A9 application processor which encompasses a dual-core platform running up to 1 GHz with 1 MB of L2 cache and 64-bit DDR3 or 2-ch., 32-bit LPDDR2 support.

MarS Board - Freescale ARM Cortex-A9

MarS Board - Freescale ARM Cortex-A9

The MarS Board is a ready-to-run platform with ported Linux 3.0.15 or Android 4.0.4. Additionally, Embest provides the demo for uC/OS-II V2.92.05 for user experience. It is an ideal core processing component for your end devices based on a single hardware design

Features Include These too
  • MarS Board is a Multi-Display platform.
  • MarS Board is a Multi-Expansibility Platform
  • NEON SIMD media accelerator
  • HD class 1080p encode/decode video engine
  • 10M/100M/1Gbps Ethernet Interface

Wednesday, July 11, 2012

Let’s make robots – It is a Crowd of Bots

Let’s Make Robots is the ultimate community site where you can learn about robots, see what others have built, ask questions and get to know others in the community.

Let’s make robots – It is a Crowd of Bot

Navigate around via ultrasound. Detects fire and fight against it. CPU: Atmel ATmega328

It is named Mr. "Red" Adair, named after the well known firefighter Paul "Red" Adair. An Atmel ATmega328 controller acts as brain together with a Pololu LVDSMC as motor controller.

Firefighting robot

Mr. "Red" Adair - Firefighting robot

For the blower motor (robbed from a defect hair dryer) a simple logic level N-FET (IRL540N) has been used. The chassis is from a cheap RC car illumninated with red, white and blue LEDs. As power supply 3 AA cells for the drive motors are used. A 9V battery block has been used for the blower motor and the 5V regulated controller supply