Wednesday, December 29, 2010

Traitorware

https://www.eff.org/deeplinks/2010/12/what-traitorware



 

What is Traitorware?

Commentary by Eva Galperin
Your digital camera may embed metadata into photographs with the camera's serial number oryour location. Your printer may be incorporating a secret code on every page it prints which could be used to identify the printer and potentially the person who used it. If Apple puts a particularly creepy patent it has recently applied for into use, you can look forward to a day when your iPhone may record your voice, take a picture of your location, record your heartbeat, and send that information back to the mothership.
This is traitorware: devices that act behind your back to betray your privacy.

Perhaps the most notable example of traitorware was the Sony rootkit. In 2005 Sony BMG produced CD's which clandestinely installed a rootkit onto PC's that provided administrative-level access to the users' computer. The copy-protected music CD’s would surreptitiously install itsDRM technology onto PC’s. Ostensibly, Sony was trying prevent consumers from making multiple copies of their CD’s, but the software also rendered the CD incompatible with many CD-ROM players in PC’s, CD players in cars, and DVD players. Additionally, the software left a back door open on all infected PC’s which would give Sony, or any hacker familiar with the rootkit, control over the PC. And if a consumer should have the temerity to find the rootkit and try to remove the offending drivers, the software would execute code designed to disable the CD drive and trash the PC.

Traitorware is sometimes included in products with less obviously malicious intent. Printer dots were added to certain color laser printers as a forensics tool for law enforcement, where it could help authenticate documents or identify forgeries. Apple’s scary-sounding patent for the iPhone is meant to help locate and disable the phone if it is lost of stolen. Don’t let these good intentions fool you—software that hides itself from you while it gives your personal data away to a third party is dangerous and dishonest. As the Sony BMG rootkit demonstrates, it may even leave your device wide open to attacks from third parties.

Traitorware is not some science-fiction vision of the future. It is the present. Indeed, the Sony rootkit dates back to 2005. Apple’s patent application indicates that we are likely to see more traitorware on the horizon. When that happens, EFF will be there to fight it. We believe that your software and devices should not be a tool for gathering your personal data without your explicit consent.

Wednesday, December 15, 2010

Decibel Usage

http://www.animations.physics.unsw.edu.au/jw/dB.htm


    Why do we use decibels? The ear is capable of hearing a very large range of sounds: the ratio of the sound pressure that causes permanent damage from short exposure to the limit that (undamaged) ears can hear is more than a million. To deal with such a range, logarithmic units are useful: the log of a million is 6, so this ratio represents a difference of 120 dB. Psychologists also say that our sense of hearing is roughly logarithmic


1. The decibel ( dB) is used to measure sound level, but it is also widely used in electronics, signals and communication.

2. The dB is a logarithmic unit used to describe a ratio. The ratio may be power, sound pressure, voltage or intensity or several other things.

3. For instance, suppose we have two loudspeakers, the first playing a sound with power P1, and another playing a louder version of the same sound with power P2, but everything else (how far away, frequency) kept the same.
The difference in decibels between the two is defined to be
10 log (P2/P1) dB        where the log is to base 10.

If the second produces twice as much power than the first, the difference in dB is
10 log (P2/P1) = 10 log 2 = 3 dB.
 To continue the example, if the second had 10 times the power of the first, the difference in dB would be
10 log (P2/P1) = 10 log 10 = 10 dB.
If the second had a million times the power of the first, the difference in dB would be
10 log (P2/P1) = 10 log 1,000,000 = 60 dB.


Using this as a base, next step is to understand the channel capacity formula:



Channel capacity is concerned with the information handling capacity of a given channel. It is affected by:
– The attenuation of a channel which varies with frequency as well as channel length.
– The noise induced into the channel which increases
with distance.
– Non-linear effects such as clipping on the signal.


Some of the effects may change with time e.g. the frequency response of a copper cable changes with temper
ature and age. Obviously we need a way to model a channel in order to estimate how much information can
be passed through it. Although we can compensate for non linear effects and attenuation it is extremely difficult to remove noise.

The highest rate of information that can be transmitted through a channel is called the channel capacity,
C

Shannon’s Channel Coding Theorem

• Shannon’s Channel Coding Theorem states that if the information rate, R (rH bits/s) is equal to or less than
the channel capacity, C, (i.e. R < C) then there is, in principle, a coding technique which enables transmission
over the noisy channel with no errors.

• The inverse of this is that if R > C, then the probability of error is close to 1 for every symbol.

• The channel capacity is defined as:
the maximum rate of reliable (error-free) information transmission through the channel.

Shannon’s Channel Capacity Theorem
• Shannon’s Channel Capacity Theorem(or the ShannonHartley Theorem) states that:

C = B log2 ( 1 + S/N) bits/s


where C is the channel capacity, B is the channel bandwidth in hertz, S is the signal power and N is the noise
power (N0B with N0/2 being the two sided noise PSD).

as the bandwidth goes to infinity the capacity goes to 1.44S/N0, i.e., it goes to a finite value and is not infinite!



Note: S/N is the ratio watt/watt not dB.


Since figures are often cited in dB, a conversion may be needed. For example, 30 dB is a power ratio of1030 / 10 = 103 = 1000.




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