Tag Archive: big data


Infinitely charged battery coming to market this summer

I’ve written about micro generators that harvess ambient energy from their environment, now the first ones are coming to market this summer.

Microgen’s new BOLT MicroPower Generator harvests tiny mechanical vibration and turns it into electrical power stored in ultra-capacitors  or thin-film batteries, effectively creating an infinitely charged battery about the size of today’s coin batteries.

Able generate enough power to replace coin batteries, it can be used in a huge variety of devices.  In an automobile’s tire pressure sensor, for example, this device collects the vibrations from the tires meeting the road and offers unending power for the sensor.  Additional applications include machinery monitoring, lighting control, wireless price tags at stores, and smart utility metering — eliminating the 164 million depleted coin-cell batteries in the U.S. and Europe each year that would otherwise need to be recycled.

Like a windmill snags the breeze, ambient vibration causes the tiny micro flap shown here to swing back and forth. This generates electrical current, which is harvested for the rechargeable thin-film battery.

Output voltage is OCV > 10 Volts, and output power Pload >100 uW @ f1 and G > 1.0 g

Devices that run forever on ambient radio waves

Electronics are becoming so energy-efficient, and radio transmitters so common, that simple electronic devices can run forever just by harvesting ambient radio waves. Here’s a sample of devices already entering the market that run forever just on the free energy transmitted from TV/radio broadcast stations, cellphone towers, and Wi-Fi networks:

  • Thermometers that can broadcast their temperature readings every 5 seconds
  • Hard hats that beep when the wearer moves too close to dangerous construction equipment
  • Wall clocks
  • CO2 alarms
  • Shelf label displays

One ramification of this trend is with more sensors come more data, and the easy proliferation of sensors will help to quickly make “big data” normal.

The devices that transmit signals use about 50 microwatts on average, while the display-only devices use less than 5 microwatts on average. A radio station transmitter easily produces 50 microwatts of harvestable energy more than 2.5 miles away from the tower.

Not only is processing power doubling every 18 months in relation to dollar cost, it’s also doubling every 18 months in relation to energy usage, and has been for the last 60 years. In other words, energy usage of devices is getting cut in half every 1.5 years for the same processing power. For example, today an office-range gigabit wireless router costs less than $100 and uses 5 watts. Projecting forward, in 10 years the same system could be powered by ambient radio waves and cost less than a buck (5 watts/2^7 = 39 microwatts; $100/2^7 = $0.79), easily making mesh networks freely accessible everywhere.

Related articles:
technologyreview.com/business/40016
nytimes.com/2010/07/18/business/18novel.html?_r=1
powercastco.com/applications/other-applications

Massive datasets available free from Amazon AWS

Want the complete annotated human genome for more than 2000 people? Want to compare those genomes to the complete genomes of elephants, dolphins, or Tasmanian devils? You can do all that for free on Amazon AWS.

“Previously, large data sets such as the mapping of the Human Genome and the US Census data required hours or days to locate, download, customize, and analyze. Now, anyone can access these data sets from their Amazon Elastic Compute Cloud (Amazon EC2) instances and start computing on the data within minutes.”

To get the data, just do these three easy steps:
1. Sign up for an Amazon EC2 account.

2. Launch an Amazon EC2 instance.

3. Create an Amazon EBS volume using the Snapshot ID listed in the catalog above for your chosen snapshot.

You only pay for the computing time on your own apps.

Here’s the list of all Amazon’s public datasets
Here’s the list of different species’ genomes that are currently available

© 2017 Robert Corvus