Microsoft Wants One-Week Battery Life From Smartphones
June 12, 2014 4:59 PM
comment(s) - last by
Mixture of battery tuning and firmware innovations could deliver 3 to 5 times longer battery life
poaching of Microsoft
) top scientists by Google Inc. (
) and other rivals has made headlines in recent years, Microsoft still appears to have plenty of brainpower in the stable at its long-term R&D unit, Microsoft Research.
I. Batteries Within Batteries
Google X Labs
, Microsoft Research focuses on solutions that are often highly unorthodox and seemingly years away from commercialization yet might make a major splash in key segments. An example of a matured Microsoft Research effort was
mind-bending software that generates 3D scenes from 2D images
Among the most intriguing projects of current Microsoft Research team members is the work of senior mobility research
. Mr. Chandra joined Microsoft in 2005 after receiving his Ph.D in computer science from
research focused on wireless stacks
Today, Mr. Chandra's work is still focused on mobile devices, but on one of the mobile industry's biggest shortfalls --
. Today’s most powerful smartphones and tablets require daily recharges. Mr. Chandra's goal is highly ambitious and specific -- to deliver smartphone technology that takes battery life under average daily use from around a day or two to a full week.
Microsoft Research senior scientist Ranveer Chandra wants smartphones that can go for a week without a recharge. [Image Source: Microsoft]
In other words, he wants to make smartphone battery life around 3 to 5 times greater than what is currently available.
Part of that increase could come from
improved battery chemistries
, but Mr. Chandra isn't holding his breath. He points out that battery capacity has only doubled in the past 15 years. Presenting on his research at the
MIT Technology Review
Digital Summit in San Francisco
You can’t just wait for the best battery technology to come along. We can make a lot of progress because systems today don’t use battery intelligently.
His most innovative idea is to produce a battery with two or more individual cells or segments tuned for different power consumption levels. Today's smartphones have a single battery that supplies current at what is considered an "average" load. In smartphone terms, typically this means an average use case when the phone is on.
Heat and electrical leakages diminish any battery from its ideal theoretical capacity. Batteries see the lowest level of waste -- and highest level of energy efficiency -- when operating at the current they're tuned to. The problem when it comes to smartphones is that at low power (standby), the hardware is typically drawing too little current and wastes more power, as a result. On the flip side, when under an unusual heavy load (e.g. a pocket 3D-game) the phone may draw more than the battery's standard current, causing it to heat up and waste power.
Mr. Chandra's initial concept involves using two lithium ion batteries -- one for standby current levels; the other for current levels at higher performance. In tests this seemingly simple change increase a smartphone's battery life by 20 to 50 percent.
While he didn't go into details, it's reasonable to extrapolate that eventually the principle could be extended to subdivisions of the active power cell into multiple current levels -- perhaps one for very low power activities (reading texts, etc.), one for medium power activities (internet browsing), and one for very graphically intensive activities (HD video, 3D gaming). Also, as standby power is typically consumed while the phone is sitting in your pocket (poorly ventilated) and active power is typically consumed when the phone is sitting in your hand (well ventilated), the standby cell could be tuned to operate under poor ventilation conditions.
II. Smarter Multitasking
While that technology hasn't made it to the commercial phase yet, Mr. Chandra's firmware work has started to trickle into use. One of his projects is
-- a piece of OS firmware that essentially does predictive multitasking. It watches app usage in order to predict which currently unused apps aren't likely to be used for some time. Those apps are then either paused or slowed down. E-Loupe uses a cloud database of a plethora of Windows users in order to generate smarter predictions, even before your device learns the quirks of your particular usage patterns.
Microsoft's E-Loupe uses the cloud to optimize multitasking power consumption.
Windows 8 incorporates a rudimentary version
of E-Loupe into its
laptop power management firmware
. It watches how much computing resources (and by proxy power), an app uses and then uses that information to control CPU frequencies (and power consumption).
It will take a lot of work to achieve the dynamite goal of a 3-5 times battery life improvement in the timeframe Mr. Chandra desires -- the next several years. But Microsoft appears to be in striking distance of those goals, if he is able to properly mature his current mixture of hardware (battery tuning) and firmware (predictive task pausing/backgrounding, CPU clockspeed control).
If Windows Phones could run for a full week on a single charge under normal use and Microsoft held the patents to make that capability exclusive, that could be a game changer for Microsoft's smartphone ambitions.
MIT Technology Review
This article is over a month old, voting and posting comments is disabled
RE: frist step
6/13/2014 12:54:07 PM
Some day I can only hope you'll stop lying about that.
You want uselessly high resolutions on tiny screens, fine - knock yourself out. But please stop your assaults on people who point out that there's not actually any benefit by telling them there's something wrong with them.
The *vast* majority of people do not care what the resolution is on a phone, and can see with their own eyes that it doesn't make any difference, and I've proven this in the real world and have described the process several times and you can do it on your own to prove it to yourself.
RE: frist step
6/13/2014 6:47:02 PM
What lie? There is a difference and if you cant see it there is something wrong with your near term vision. It's not an insult... Half the country wears glasses. It's not abnormal.
If you say you don't care, about the quality difference from 720 to 1080 on a 5 inch phone, fine. I believe you. If you say you cant see a difference, there is something wrong with your near term vision period, end of story. You don't see what you cant see because your eyes are not working well at that distance.
RE: frist step
6/15/2014 8:57:48 AM
Taking this from a scientific approach here a approximation of what someone is capable of seeing.
There 3 factors
1. Your eyes sight
2. DPI of the screen
3. Distance from the screen
For this calculation am going to show 20/20 vision and just for comparison the theoretical max a unaided human eye can see 20/8.
20/20 = ~0.016666 arc minutes (in degrees)
20/8 = ~0.00666666 arc minutes (in degrees)
Formula for max dpi
=1/(2*Distance(in inches)*TAN((arc minutes/2))))
**make sure you do the calculation in degrees. Many calculators will assume radians. If using excel for example you have to write the formula like
if distance equal 6 inches you get
20/20 = 573
20/8 = 1432
6 inch cell phone DPI
1080 DPI= = (SQRT(1920^2+1080^2))/6 = 440.6
440<573 so someone with 20/20 vision at 6 inches should be capable of seeing a resolution greater then 1080.
I also showed 20/8 just to make the point that your vision have a huge impact on what the max resolution is you can see. It is very possible that when one person says they cant see the difference and another person says they can that they both telling the truth.
RE: frist step
6/15/2014 10:31:13 PM
6" is really uncomfortable for focusing, I probably hold my phone somewhere between one to one and a half feet away.
RE: frist step
6/16/2014 11:05:30 AM
All that math and you don't understand the difference between DPI and PPI?
"Can anyone tell me what MobileMe is supposed to do?... So why the f*** doesn't it do that?" -- Steve Jobs
Eton Thundergod Packs 5,000 mAh Battery in 9.3 mm Thick Android Phone
April 8, 2014, 4:15 PM
Top Microsoft Graphics Genius Defects to Google
December 17, 2013, 4:27 PM
Microsoft Announces Updated Creative Apps for Windows 8.1
October 16, 2013, 1:57 PM
Surface Pro 2 May Target 8+ Hour Battery Life With Haswell
September 4, 2013, 12:15 PM
Google Building New "Project X" Hardware Labs, Sales Center at Googleplex
February 13, 2012, 9:40 AM
Smart Security Cameras: 5 Good Choices For Any Budget
July 25, 2016, 7:13 PM
Top 5 Smart Watches
July 21, 2016, 11:48 PM
Retiree Sues Apple For $7,500 for Wiping Honeymoon Photos From His iPhone
November 30, 2015, 10:23 AM
iPhone 7 May Pack 3-4 GB Memory, More Storage; 4-Inch Comeback is Rumored
November 20, 2015, 10:12 PM
OnePlus One, OnePlus 2 Will Receive Android Marshmallow in Q1 2016
November 16, 2015, 9:58 AM
Lenovo Whoa: Motorola Droid MAXX 2 and Turbo 2 Break Cover in Leaks
October 26, 2015, 3:12 PM
Most Popular Articles
First Apple Computer Auctions for $815,000
August 27, 2016, 7:51 AM
Drones at the Airport
August 26, 2016, 5:00 AM
5 Easy Ways to Lower Blood Pressure By Monique C. Bethell, Ph.D.
August 25, 2016, 8:00 AM
2 NEW PlayStation 4 Models - Unveiling September 7th
August 23, 2016, 6:23 AM
Say Goodbye to Data Plans - Sprint and T-Mobile offer Unlimited Data
August 22, 2016, 6:12 AM
Latest Blog Posts
First Self-Driving Car debut on the streets of Singapore
Aug 28, 2016, 4:10 PM
Coming Soon - Drones and Airports
Aug 24, 2016, 12:40 PM
SolarCity’s Gigafactory: A Milesone in Emerging Technology by Lily Emamian - 15 August 2016
Aug 15, 2016, 6:30 AM
Sceptre Airs 27", 120 Hz. 1080p Monitor/HDTV w/ 5 ms Response Time for $220
Dec 3, 2014, 10:32 PM
Costco Gives Employees Thanksgiving Off; Wal-Mart Leads "Black Thursday" Charge
Oct 29, 2014, 9:57 PM
More Blog Posts
Copyright 2016 DailyTech LLC. -
Terms, Conditions & Privacy Information