Presentation is loading. Please wait.

Presentation is loading. Please wait.

2007 Science of Design (SoD) PI Meeting – Project Nuggets NSF SoD Award No: NSF SoD-HCER-0613885 Project Title: Learning Based Programming Investigator.

Similar presentations


Presentation on theme: "2007 Science of Design (SoD) PI Meeting – Project Nuggets NSF SoD Award No: NSF SoD-HCER-0613885 Project Title: Learning Based Programming Investigator."— Presentation transcript:

1 2007 Science of Design (SoD) PI Meeting – Project Nuggets NSF SoD Award No: NSF SoD-HCER-0613885 Project Title: Learning Based Programming Investigator Name: Dan Roth Institution Name: University of Illinois at Urbana- Champaign Website URL: http://l2r.cs.uiuc.edu/~cogcomp/fund.php?f_key=LBP LBP provides clean modularization and a rapid development cycle for applications involving functions whose definitions are data-driven and difficult to write explicitly. Project Description and Outcomes: Conventional programming languages rely on a programmer to explicitly define all the concepts and relations involved. On the other hand, programming with naturally-occurring data, that is highly variable and ambiguous at the measurement level, necessitates a programming model in which some of the variables, concepts and relations may not be known at programming time, may be defined only in a data driven way, or may not be unambiguously defined without relying on other concepts acquired this way. Learning Based Programming (LBP) is a programming paradigm for seamless incorporation of trainable variables into the program and, consequently, the ability to reason using high level concepts without the need to explicitly define them in terms of all the variables they might depend on, or the functional dependencies among them. These may be determined in a data-driven way, via learning operators the operation of which is abstracted away from the programmer. Learning Based Programming (LBP) is intended to support designing and combining multiple discriminative functions into a coherent, global inference solution. LBP functions may be defined deterministically or in a stochastic, data driven manner with the aid of learning algorithms. Therefore, an LBP program represents a set of possible programs. The element of that set which will actually execute is not known until data is acquired. Furthermore, LBP provides a principled framework for combining the functions’ outputs into an optimized inference solution by enforcing global constraints on their values. This Work is notable because (potential contributions to the Science of Design): This project will lead to cross-fertilization and mutual reinvigoration of the software engineering and machine learning fields. Enabling the development of computer systems that interact and cope with the variability of naturally occurring (sensor) data will require fundamental advances in compilation and software engineering issues. Conversely, availability of the LBP vehicle will motivate researchers in machine learning to explore the process of making inferences that rely on a large number of mutually dependent learners as a means to providing programmers with better abstractions so that they can more effectively tackle a broad range of increasingly complex applications involving such data. Progress so far: Learning Based Java (LBJ) is our implementation of LBP. We have developed beta versions of the LBJ compiler and run-time library. The LBJ compiler takes as input a source file containing a list of function and constraint declarations. The compiler then produces Java code that works in concert with the run-time library to perform inference: the outputs of the functions are combined, optimizing their values while respecting the constraints.


Download ppt "2007 Science of Design (SoD) PI Meeting – Project Nuggets NSF SoD Award No: NSF SoD-HCER-0613885 Project Title: Learning Based Programming Investigator."

Similar presentations


Ads by Google