Do-it-yourself (DiY) hardware platforms have spun a true global revolution in the way in which the digital interfaces with the physical. From twitter-controlled christmas trees to bicycle jackets with turn signal lights, the DiY movement is driving endless innovations and stimulating an age of creative engineering. Body signals have been largely neglected within this revolution, but now a newcomer is extending the principles of physical computing to the domain of body signals, forever changing the way projects and applications involving physiological data are made. In this talk we'll look into BITalino, the only purpose-built toolkit in the world that allows anyone to create cool projects and applications with body signals. http://arduinoday2014atiscte.wordpress.com/events/arduino-day-2014/speaker/hugo-placido-da-silva/
a turn signal biking jacket
http://www.youtube.com/watch?v=ZtNEPkwCfxA
or back to the future sneakers
http://www.youtube.com/watch?v=k_Efr2TaEPo
or back to the future sneakers
http://www.youtube.com/watch?v=k_Efr2TaEPo
or a Ziphius aquatic drone
http://www.kickstarter.com/projects/ziphius/ziphius-the-aquatic-drone
BUT WHAT ABOUT BODY SIGNALS?
the only DiY kit in the world for biosignals...
and imagination is really the limit!
although its also thought for versatility
theres free software to go with it as well
a growing number of programming APIs
BITalino... currently provided as a low-cost toolkit
real-time sampling and conversion of the analog sensor outputs
to a digital representation
CAN WE UPLOAD OUR OWN CODE?
yes, but may be easier to use an Arduino
HOW ABOUT STANDALONE APPLICATIONS?
needs a 3rd party system via UART or peripherals
3.3V and 1.65V regulated power supply, with battery charger and
voltage information
WHAT IS THE BATTERY LIFE?
~10h with included battery
interchangeable Bluetooth communication interface with 115.2k
bps transfer rate
WHAT OTHER INTERFACES CANYOU USE?
any UART-compatible adapter or device
https://www.how.do/guide/bitalino-usb-interfaces
G. Mathew.Medical Devices Isolation: How Safe is Safe Enough,
WiproTechnologies, White Paper. 2002. MAKE SUREYOU ARE DIRECTLY AND
INDIRECTLY DECOUPLED FROM A HIGH VOLTAGE SOURCE WHEN USING LOW
IMPEDANCE SENSORS
an auxiliary connectivity block allows you to add RJ22 plugs
for cabled sensor connection
ANY ACCESSORY WITH AVOLTAGE OUTPUT CAN BE USED!
analog temperature sensor
https://www.how.do/guide/bitalino-a-tmp36-sensor
tilt switch on a digital input
https://www.how.do/guide/bitalino-a-tilt-switch
+ - o ELECTRODES PRINCIPLE BANDWIDTH INP. IMPEDANCE CMRR RANGE
GAIN 3 V. Diff 10-400Hz 100GOhm 110dB 1.65V 1000x
EMG | Human-Computer Interaction
ELECTRODES PRINCIPLE BANDWIDTH INP. IMPEDANCE CMRR RANGE GAIN 2
or 3 V. Diff 0.5-40Hz 100GOhm 110dB 0-3.3V 1100x + - o
ECG | Biometrics H. Silva;A. Loureno; F. Canento;A. Fred; "ECG
Biometrics: Principles and Applications", Proc International Conf.
on Bio-inspired Systems and Signal Processing - Biosignals,
February, 2013.
ELECTRODES PRINCIPLE BANDWIDTH INP. IMPEDANCE CMRR RANGE GAIN 2
Resistance 0-3Hz - - 0-1MOhm 2x + -