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Computer Science as a Discipline

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Computer science is the study of computation, encompassing all ... the development of computational devices for executing ... hyper-threading. 8 ... – PowerPoint PPT presentation

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Title: Computer Science as a Discipline


1
Computer Science as a Discipline
2
Science
3
Computer Science
  • Computer science is the study of computation,
    encompassing all facets of problem solving
    including
  • the design and analysis of algorithms
  • the formalization of algorithms as programs
  • the development of computational devices for
    executing those programs
  • Computer science shares common elements with
    natural sciences, including rigorous approach to
    understanding complex phenomena and solving
    problems.
  • Computer science has been classified by some as
    artificial science, since the systems studied by
    computer sciences are largely designed and
    constructed by people.

4
Computer Science Themes
5
Subfields of Computer Science
  • In Computer Science The Discipline Peter
    Denning identifies 12 major subfields of computer
    science
  • here, we will see 14
  • separate OS from Networks
  • separate AI from Robotics
  • The common themes of computer science that
    influence every sub-field
  • hardware,
  • software, and
  • theory.
  • Hardware usually relegated to Computer
    Engineering
  • we still have
  • firmware
  • microcode

6
Algorithms and Data Structures
  • The study of methods for
  • solving problems,
  • designing and analyzing algorithms, and
  • effective use of data structures in software
    systems
  • Research potential
  • new
  • algorithms
  • structures
  • better (more efficient wrt time and space)
  • interesting applications
  • compression
  • encryption
  • evaluation of complexity
  • proofs
  • computability
  • or non-computabilty
  • NP-completness

7
Architecture
  • The design and implementation of computing
    technology
  • the integration of effective hardware systems and
  • the development of new manufacturing methods
  • Research potential
  • new architectures
  • architectural improvements
  • changing von Neumann machine?
  • quantum
  • optical
  • nanotechnology
  • perhaps just improving
  • caching
  • just in time
  • pre-fetching
  • hyper-threading

8
Operating Systems
  • The design and development of software and
    hardware systems for managing the components of a
    computer
  • Research potential
  • new OSes
  • new or improved OS components
  • file system
  • caching
  • synchronization
  • threading
  • system security
  • peripheral management
  • a replacement for an interrupt vector?
  • interesting device drivers
  • interesting re-configurations of Linux
  • system analysis

9
Computer Networks
  • The design and development of software and
    hardware systems for
  • controlling,
  • operating, and
  • managing the components network of communicating
    computers
  • Research potential
  • protocols
  • network engineering
  • wireless
  • mesh networks
  • switcing theory
  • network management
  • network security
  • performance analysis
  • network computing (distributed)

10
Software Engineering
  • The development and application of methodologies
    for designing, implementing, testing, and
    maintaining software systems
  • Research potential
  • methodologies
  • replacement for waterfall, extreme, agile?
  • requirement analysis and specifications
  • capture
  • track
  • design
  • xxx-based design
  • modeling tools UML
  • interesting models
  • implementation
  • rapid development
  • configuration management
  • verification
  • testing methodologies
  • bug management
  • requirements
  • operations and maintenance

11
Artificial Intelligence
  • The study and development of software agents that
    solve complex problems through seemingly
    intelligent behavior
  • Research potential
  • contributions to the theory
  • symbolic AI
  • logic-based inference
  • expert systems
  • semantic nets
  • search
  • probabilistic systems
  • Bayes theory
  • probabilistic nets
  • biologically inspired systems
  • neural networks
  • genetic algorithms
  • swarm intelligence
  • immune systems
  • machine learning
  • natural language processing
  • applications

12
Robotics
  • The study and development of hardware systems
    exhibit human-like characteristics
  • The software side deals with
  • control
  • manipulators
  • actuators, effectors
  • perception
  • seeing
  • hearing
  • speaking, and
  • reasoning and thinking as well
  • but these are dealt with in AI
  • Research potential
  • control theory
  • pattern recognition
  • Hidden Markov Models
  • sensing
  • vision
  • speech
  • tectile

13
Programming Languages
  • The design and implementation of languages that
    allow programmers to express algorithms so that
    they are executable on computers
  • Research potential
  • new paradigms
  • logic
  • O-O
  • agent-based
  • new languages
  • improvements to compilers
  • grammars
  • rapid development languages

14
Database Information Retrieval
  • The organization and efficient management of
    large collections of data
  • development of methods searching, and
  • recognizing patterns in the data
  • Research potential
  • new search algorithms
  • new paradigms
  • relational
  • O-O
  • pattern recognition
  • statistical analysis
  • clustering
  • data mining
  • search engines

15
Graphics
  • The design of software and hardware systems for
    representing physical and conceptual objects
    visually such as with
  • images
  • video, or
  • three-dimensional holograms
  • Research potential
  • 2D and 3D modeling
  • OpenGL replacement?
  • shadowing
  • light
  • perspective
  • animation
  • color management
  • compression techniques
  • image,
  • video,
  • sound

16
Human-Computer Interactions
  • The design, implementation, and testing of
    interfaces that allow users to interact more
    effectively with computing technology
  • Research potential
  • new interfaces
  • hyper-text
  • holography
  • virtual reality
  • replacement for
  • mouse
  • windows
  • menus
  • speech understanding
  • speech synthesis
  • GUI toolkits
  • usability test methodology

17
Computational Science
  • Explorations in science and engineering that
    utilize high-performance computing, such as
  • modeling complex systems or
  • simulating experimental conditions
  • Research potential
  • new models
  • modeling methodology
  • parallel algorithms
  • simulation environment
  • analytical tools

18
Organizational Informatics
  • The development and study of management process
    and information systems that support technology
    workers and organizations
  • Research potential
  • more CIS or MIS than CS
  • models of organizations
  • improvement to models
  • workflow
  • risk management
  • investment management

19
Bioinformatics
  • The application of computing methodologies and
    information structures to biological research,
    such as the characterization and analysis of the
    human genome
  • Computational Biology
  • another term
  • Research potential
  • AMGEN!
  • anything to do with genetics research
  • applications in biotechnology
  • genetic engineering

20
Resources
  • ACM
  • http//www.acm.org/
  • Wikipedia
  • http//www.wikipedia.com/
  • Library
  • http//www.library.csuci.edu/subjects/compsci/
  • Any good CS department at a research university
  • for example http//www-cs.stanford.edu/research/
  • I will post this information on our Web site
  • http//www.cs.csuci.edu/

21
Theory - Turing Machines
  • Alan Turing developed the concept of a computing
    machine in the 1930s
  • A Turing machine, as his model became known,
    consists of a control unit with a read/write head
    that can read and write symbols on an infinite
    tape
  • Despite their simplicity, Turing machines can be
    designed to compute remarkably complex functions.
    In fact, they are generally thought to be as
    powerful (in theory) as any possible computer.
  • Finding out what they can do is half the fun of
    studying computability. Finding out what they
    can't do is the other half.Try
    http//wap03.informatik.fh-wiesbaden.de/weber1/tur
    ing/tm.html

22
Turing Machines
  • Why is such a simple machine (model) of any
    importance?
  • It is widely accepted that anything that is
    intuitively computable can be computed by a
    Turing machine
  • If we can find a problem for which a
    Turing-machine solution can be proven not to
    exist, then the problem must be unsolvable

23
Artificial Intelligence
  • In 1950 Alan Turing predicted that by the end of
    the 20th century, the intelligence exhibited by
    programmed machines would rival that of humans
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