Arioch Center Photo

Computer Science and Networking Department

Thomas L. Goulding, Chair
Dobbs Hall Room 006
Phone: 617-989-443

Faculty

Professors

  • Thomas L. Goulding, Ph.D.
  • Michael M. Werner, Ph.D.

Associate Professors

  • Karina Assiter, Ph.D.
  • Leonidas Deligiannidis, Ph.D.
  • John P. Russo
  • Durga Suresh, Ph.D.
  • Hongsheng Wu, Ph.D.

Assistant Professors

  • Magdy Ellabidy
  • Pierre Elysee
  • Joey Lawrance, Ph.D.
  • Lisa MacLean
  • David Rilett
  • Charlie Wiseman, Ph.D
  • Mira Yun, Ph.D.

The Department of Computer Science and Networking is dedicated to providing its students with a foundation for continuous learning and an understanding of contemporary computer science and networking theory and applications. Specifically, the department‘s mission is to introduce students to this field by using introductory programming and problem-solving courses. Students develop the necessary research and analytical skills to understand and apply newly acquired knowledge such as database management systems, networking, advanced programming languages, computer architecture, and operating systems. The department strives to prepare its graduates for productive and challenging careers in private practice, industry, and government, and to provide a solid foundation for lifelong professional development, including graduate programs.

The department‘s dedicated networking laboratory provides students with an effective learning experience. Students have the opportunity to work with state of-the-art servers, switches, and routers both for network design and administration. The department involves students in their professions through its support of related student organizations and special lecture programs.

The department offers advanced electives in networking, biotechnology, and games programming

  • In networking there are (or will be) courses in security, storage technology, and advanced routing and switching
  • In biotechnology there are four bioinformatics courses: an introduction to bioinformatics, bioinformatics algorithms, biostatistics, and data mining
  • In games programming there are four courses: graphics programming, introduction to games programming, advanced games programming, and virtual reality

Degree Programs

Computer Networking (BSCN): Leading to the Bachelor of Science Degree

In the core networking courses, the student acquires skills in networking, database management, webpage development, and computer administration. Through the management courses the student will analyze and solve business problems. In addition, introductory programming languages, including object oriented programming, computer systems architecture, and operating systems are integral components of this program as are English, mathematics, science, and social science.. Computer Networking (BSCN) is a cooperative education program which provides students with the opportunity to take part in paid work experience in industry for a minimum of two non-consecutive semesters. Graduates, in addition to continuing their education at the graduate level, may seek employment in a wide range of computer-related fields such as network administration, database administration, web application development, web design, technical support, and IT management.

Program Educational Objectives for Computer Networking:

  1. Graduates will have a solid foundation for engaging in lifelong learning and professional development in the computer networking field.
  2. Graduates will attain productive and challenging careers in private practice, industry, and government.
  3. Graduates will be proficient in applying contemporary networking theory and practice to problems encountered in their workplace.
  4. Graduates will exhibit professionalism and behave in an ethical manner with regard to workplace and societal issues.

Freshman Year

Fall Semester Course R L C
COMP128 Computer Science I 3 2 4
COMP165 Intro. to Computing and Problem Solving 3 2 4
ENGL100 English I 4 0 4
MATH205 College Mathematics I 4 0 4
Total 14 4 16
Spring Semester Course R L C
COMP201 Computer Science II 3 2 4
COMP218 Networks, Services and the World Wide Web 2 2 3
ENGL115 English II 3 0 3
MATH250 Precalculus 4 0 4
PHYS210 College Physics I 3 2 4
Total 15 6 18

Sophomore Year

Fall Semester Course R L C
COMP278 Computer Architecture 3 2 4
COMP285 Object Oriented Programming 3 2 4
COMP290 Operating Systems Concepts 3 2 4
ELECTIVE Science Elective1 3 2 4
ELECTIVE Lower Level Social Science Elective 3 0 3
Total 15 8 19
Spring Semester Course R L C
COMP315 Unix Systems Administration 3 2 4
COMP325 Systems Analysis & Business Applications 3 2 4
COMP355 Database Management Systems 3 2 4
ELECTIVE Lower Level Social Science Elective 3 0 3
ENGL350 Writing Competency Assessment 0 0 0
COMP425 Switching and Routing 3 2 4
Total 15 8 19
Summer Semester Course R L C
COOP300 Pre-Cooperative Work Term (Optional) 0

Note: Prior to entering junior year courses, students must have completed all pre-requisite courses listed above or have received permission from the department to enroll in these courses.

Junior Year

Fall Semester Course R L C
COMM400 Technical Communications 3 0 3
COMP573 Information Technology Management 2 2 3
COMP563 Network Administration 3 2 4
COMP570 Database Applications 3 2 4
COMP--- Advanced Networking Elective2 3 2 4
Total 14 8 18
Spring Semester Course R L C
COOP400 Co-op Work Semester I 0
Summer Semester Course R L C
COMP--- Advanced Networking Elective2 3 2 4
COMP553 World Wide Web Application Development 2 2 3
COMP420 Introduction to Computer and Network Security 3 2 4
MATH430 Finite Mathematics 4 0 4
Total 12 6 15

Senior Year

Fall Semester Course R L C
COOP600 Co-op Work Semester II 0
Spring Semester Course R L C
COMP566 Software Design and Development 3 2 4
COMP430 Web Security 2 2 3
ELECTIVE Upper Level Humanities or Social Science Elective* 4 0 4
COMP476 Information Systems Project Management 3 2 4
PHIL450 Ethics 4 0 4
Total 16 6 19
Summer Semester Course R L C
COMP--- Advanced Networking Elective2 3 2 4
COMP655 Senior Project in Computer & Network Information 1 6 4
COMP690 Seminar in Computer and Network Information 3 0 3
ELECTIVE Upper Level Humanities or Social Science Elective* 4 0 4
Total 11 8 15

R=Class Hours Per Week, L=Lab Hours Per Week, C=Semester Credit Hours

*Please refer to the upper level humanities/social science elective requirement.

1Courses selected with the Faculty Advisor as necessary to complement and to broaden the student’s background.
2The advanced Networking and Information Systems courses to be offered in a particular semester will be selected by the CSS department from the following list:

  • COMP665 Advanced Topics in Networking
  • COMP670 Advanced Topics in Database Management Systems

In addition, BSCN students may use certain BCOS courses as required advanced Networking and Information Systems courses provided they have passed the course prerequisites. The eligible BCOS courses are:

  • COMP611 Introduction to Biostatistics
  • COMP613 Computer Graphics
  • COMP460 Introduction to Game Programming

Computer Science (BCOS): Leading to the Bachelor of Science Degree

In the core computer courses the student acquires skills in computer programming using contemporary design techniques and high-level languages. There is significant coursework covering computer hardware architecture. Advanced courses in computer science include database management, graphics, networking, and operating systems. English, mathematics, science, and social science are integral components of this program.

Computer Science (BCOS) is a cooperative education program which provides students with the opportunity to take part in paid work experience in industry for a minimum of two non-consecutive semesters. Graduates, in addition to continuing their education at the graduate level, may seek employment in a wide range of computer-related fields such as software engineering, web-based programming, network analysis, and technical support.

Program Educational Objectives for Computer Science graduates:

  1. They will have a solid foundation for engaging in lifelong learning and professional development in the computer science field.
  2. They will attain productive and challenging computer science and/or software engineering careers in private practice, industry, and government.
  3. They will be proficient in applying contemporary computer science theory and practice to problems encountered in their workplace.
  4. They will exhibit professionalism and behave in an ethical manner with regard to workplace and societal issues.

Freshman Year

Fall Semester

Course R L C
COMP128 Computer Science I 3 2 4
COMP165 Intro. to Computing and Problem Solving 3 2 4
ENGL100 English I 4 0 4
MATH250 Precalculus 4 0 4
Total 14 4 16
Spring Semester Course R L C
COMP201 Computer Science II 3 2 4
COMP218 Networks, Services and the World Wide Web 2 2 3
ENGL115 English II 3 0 3
MATH280 Calculus I 4 0 4
ELECTIVE Science Elective1 3 2 4
Total 15 6 18

Sophomore Year

Fall Semester Course R L C
COMP278 Computer Architecture 3 2 4
COMP285 Object Oriented Programming 3 2 4
ELECTIVE Lower Level Social Science Elective 3 0 3
MATH290 Calculus II 4 0 4
PHYS310 Engineering Physics I 3 2 4
Total 16 6 19
Spring Semester Course R L C
COMP310 Data Structures 3 2 4
COMP355 Database Management Systems 3 2 4
ELECTIVE Lower Level Social Science Elective 3 0 3
ENGL350 Writing Competency Assessment - - 0
MATH410 Discrete Mathematics 4 0 4
PHYS320 Engineering Physics II 3 2 4
Total 16 6 19

Note: Prior to entering junior year courses, students must have completed all prerequisite courses listed above or have received permission from the department to enroll in these courses.

Summer Semester Course R L C
COOP300 Pre-Cooperative Work Term (Optional) 0

Junior Year

Fall Semester Course R L C
COMM400 Technical Communications 3 0 3
COMP--- Advanced Computer Science Course2 3 2 4
COMP438 Assembly Language 3 2 4
COMP501 Introduction to Programming Languages 3 2 4
MATH505 Probability and Statistics for Engineers 3 2 4
Total 15 8 19
Spring Semester Course R L C
COOP400 Co-op Work Semester I 0
Summer Semester Course R L C
COMP362 Operating Systems 3 2 4
COMP400 Local and Wide Area Networks 3 2 4
COMP414 Algorithm Design and Analysis 3 2 4
MATH440 Linear and Vector Algebra 4 0 4
Total 13 6 16

Senior Year

Fall Semester Course R L C
COOP600 Co-op Work Semester II 0
Spring Semester Course R L C
COMP--- Advanced Computer Science Course2 3 2 4
COMP566 Software Engineering 3 2 4
ELECTIVE General Elective1 - - 3
ELECTIVE Upper Level Humanities or Social Science Elective* 4 0 4
ELECTIVE Upper Level Humanities or Social Science Elective* 4 0 4
Total - - 19
Summer Semester Course R L C
COMP--- Advanced Computer Science Course2 3 2 4
COMP603 Compiler Design 3 2 4
COMP650 Senior Project in Computer Science 1 6 4
PHIL450 Ethics 4 0 4
Total 11 10 16

R=Class Hours Per Week, L=Lab Hours Per Week, C=Semester Credit Hours

*Please refer to the upper level humanities/social science elective requirement.

1Courses selected with the Faculty Advisor as necessary to complement and to broaden the student’s background.
2The advanced Computer Science (CS) courses to be offered in a particular semester will be selected by the CSS department from the following list:

COMP460 Introduction to Game Programming COMP630 Distributed Computing
COMP461 Advanced Game Programming COMP635 Parallel Processing
COMP462 Virtual Reality COMP645 Computational Linguistics
COMP543 Introduction to Artificial Intelligence COMP665 Advanced Topics in Networking
COMP601 Introduction to Bioinformatics COMP670 Advanced Topics in Database Management Systems
COMP602 Bioinformatics Algorithms COMP671 Theory of Computation
COMP611 Introduction to Biostatistics COMP675 Distributed Information Systems
COMP612 Biological Data Mining COMP685 Seminar in Computer Science
COMP613 Computer Graphics

In addition, BCOS students may use certain BSCN courses as required advanced CS courses, provided they have passed the prerequisites. The eligible BSCN courses are:

  • COMP563 Network Administration
  • COMP570 Database Applications
  • COMP577 Testing and Quality Assurance

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