EU Gears Up for Another Patent Fight

DirkFromEurope writes "Heise Online is reporting on the Digital Europe meeting of the Progress & Freedom Foundation in Prague. From the article: 'Proponents for a broadening of industrial property rights in the computer sector have declared a new round in the fight about software patents in the EU opened. "It starts again", announced Günther Schmalz, head of SAP's software department.' Günther also 'expressed hope that his camp will be better prepared this time than during the last struggle. A "bridge position" must be reached, which both sides could live with.'"

Re:Software Patents Aren't Bad

[n0dalus]

If you're going to steal comments from Previous Articles, you could at least copy the formatting properly. Stop abusing the moderation system.

MOD PARENT DOWN

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There was a "bridge"

[k98sven]

There was a "bridge position" last time, namely the proposal that including the amendments the EU parliament had passed. Then the pro-patent Commission pushed through the thing in the Council of Ministers pretending the amendments never happened.

And then the pro-patent lobby decided to go "all or nothing" when it was time for the second reading in the parliament. But since the parliament were obviously not going to let the thing pass unamended (largely thanks to being pissed off at being ignored earlier), they chickened out at the last minute, so the thing got killed.

Hopefully they'll listen to the Parliament (you know, the ones directly elected by the people) more this time. I for one could've lived with the fully amended proposal.

software is not patentable, but copyrightable

[3seas]

It is provable that by softwares very nature, it is not a matter of patentability. Only by ignorance and intentional deception is it granted patents.

from http://wiki.ffii.de/IstTamaiEn

Physics of Abstraction (abstraction physics)

Abstraction enters the picture of computing with the representation of physical transistor switch positions of ON '1' and OFF '0' or what we call "Binary" notation. However, computers have far more transistor switches in them than we can keep up with in such a low level or first order abstract manner, so we create higher level abstractions in order to increase our productivity in programming computers. From Machine language to application interfaces that allow users to define some sequence of action into a word or button press (ie. record and playback macro) so to automate a task, we are working with abstractions that ultimately accesses the hardware transistor switches which in turn output to, or control some physical world hardware.

Programming is the act of automating some level of complexity, usually made up of simpler complexities, but done so in order to allow the user to use and reuse the complexity through a simplified interface. And this is a recursive act, building upon abstractions others have created that even our own created abstractions/automations might be used by another to further create more complex automations. In general, if we didn't build upon what those before us have done, we then would not advance at all, but rather be like any other mammal incapable of anything more than, at best, first level abstraction. But we are more, and as such have the natural human right and duty to advance in such a manner.

There is an identifiable and definable "physics of abstraction" (abstraction physics), an identification of what is required in order to make and use abstractions. Abstraction Physics is not exclusive to computing but constantly in use by ... well... us humans. Elements or facets of abstraction physics include the actions of abstraction creation and use, such as defining a word to mean a more complex definition (word = definition, function-name = actions to take, etc.), Starting and Stopping (interfacing with) of an abstraction definition sequence, keeping track of where you are in the progress of abstraction sequence usage (moving from one abstraction to another), defining and changing "input from" direction, defining and changing "output to" direction, getting input to process (using variables or place holders to carry values), sequencially stepping thru abstraction/automation details (inherently includes optionally sending output), looking up the meaning of a word or symbol (abstraction) so to act upon or with it, identifing an abstraction or real item value so to act upon it, and putting constraints upon your abstraction lookups and identifications (when you look up a word in a dictionary you don't start at the beginning of the dictionary, but begin with the section that starts with the first letter then followed by the second, etc., and when you open a box with many items to stock, you identify each so as to know where to put it in stock.)

Abstraction Physics has yet to be established/recognized in a broad "common acceptance" manner, similiar to the difficulty in the acceptance of the hindu-arabic decimal system (which included the concept that nothing can have value - re: the Zero place holder). It took three hundred years (from inception) for the innovation of the now common decimal system to overcome the far more limited Roman Numeral system. (NOTE: mathmatics and the symbol sets used are also abstractions and therefor a subset of abstraction possibilities and certainly an application of abstraction physics.) Though the act of programming is still younger than many who apply it, we are technologically moving at a much faster rate of incorporating innovations and better understandings of reality. There is a physics to abstraction creation and use which can be used

Mercantilism, not capitalism

[Colin+Smith]

Capitalism has relatively little to do with politics. Mercantilism on the other hand gets heavily involved in protectionism, government intervention etc.

America and most other Western European societies are really more mercantilistic societies than capitalistic.