| Department: | Computer Information Systems |
| San Antonio College | |
| 1300 San Pedro | |
| San Antonio, TX 78212-4299 | |
| Course Number and Title: | ITNW2312 — Routers |
| Office: | Nail Technical Center, Rm 114 |
| Phone Number: | (210) 486-1050 |
| FAX: | (210) 486-1750 |
| Web Address: | http://cis.sac.accd.edu |
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ITNW 1325 - Fundamentals of Networking Technologies
Required:
CCNA Study Guide, 6th edition, Todd Lammle, 2007, ISBN 978-0-470-11008-9
Lecture, discussion of key concepts, and homework assignments will be administered during the course. In addition, project assignments, assigned readings, and class presentations by students may be used to further clarify concepts and techniques.
Midterm 25%
Final 25%
Quizzes 40%
Labs 10%
Upon successful completion of this course, the student will be able to pass the Cisco Certified Network Associate certification.
Upon successful completion of this course, the student will be able to configure and troubleshoot the routers and switches in a small business network.
List in order the seven layers of the OSI model. Define the responsibility of each of the seven layers of the OSI model. Define the Protocol Data Units(PDUs) for layers 1-4 of the OSI model. Explain Encapsulation/De-Encapsulation. Describe how the Internet connects.
The student will be able to represent numbers in Base 2(binary), Base 10 (decimal), Base 16(hexadecimal.) Sutdent will be able to convert: (1)decimal to hexadecimal, (2)decimal to binary, (3)binary to hexadecimal, (4)hexadecimal to binary.
The student will be able to describe the steps in the 3-way handshake. The student will be able to explain TCP Windowing, port numbers NAT and PAT. The student will be able to describe the three IPv4 address classes and IPv6 address space. The studnet will be able to contrast physical and logical addresses.
The student will demonstrate understanding of subnet masks by applying custom subnet masks to IP addresses to provide valid networkIDs, provide a valid host address ranges for a given network. The student will be able to describe Classless InterDomain Routing (CIDR). The student will be able to describe and give examples of private IP addresses
The student will be able to list and define the common Internet applications and describe the service(s) provided by each common Internet application. The student will be able to describe E-learning and its components.
The student will be able to explain the function of a bridge, a switch and LAN switching. The student will be able to describe segmentation, broadcast domains and Virtual LANs.
The student will be able to differentiate between and describe Dial, ISDN, DSL, and Cable network types.
The student will be able to list and describe the WAN technologies and hardware. Student will be able to list and describe virtual circuits and frame relay.
The student will be able to configure routing protocols; including RIP, OSPF, IGRP and EIGRP.
The student will be able to configure Access Control Lists (ACLs) on a router.
| 1.0 | RESOURCES | |
| 1.1 | Manages Time | Selects relevant, goal-related activities, ranks them in order of importance, allocates time to activities, and understands, prepares, and follows schedules. |
| Evaluation: | Students are given time limits on quizzes and exams. Assignments are due on specific dates. Students are required to follow schedule as devised by instructor. | |
| 2.0 | INTERPERSONAL | |
| 2.1 | Participates as a Member of a Team | Works cooperatively with others and contributes to group with ideas, suggestions, and effort. |
| Evaluation: | Works with other students to develop and implement proper firewall rules on laboratory equipment. | |
| 3.0 | INFORMATION | |
| 3.1 | Acquires and Evaluates Information | Identifies need for data, obtains it from existing sources or creates it, and evaluates its relevance and accuracy. |
| Evaluation: | Students gain knowledge of programming and design concepts through lecture and reading. | |
| 3.2 | Organizes and Maintains Information | Organizes, processes, and maintains written or computerized reports and other forms of information in a systemic fashion. |
| Evaluation: | The student must take notes on lectures and readings about programming and design concepts which must then be applied to a programming problem. | |
| 3.3 | Uses Computers to Process Information | Employs computers to acquire, organize, analyze, and communicate information. |
| Evaluation: | Students use computers to edit, test, debug and execute their programs. | |
| 4.0 | SYSTEMS | |
| 4.1 | Understands Systems | Knows how social, organizational, and technological systems work and operates effectively within them. |
| Evaluation: | The student must understand how computer hardware and software combine into a system for solving problems and producing useful information. | |
| 4.3 | Improves and Designs Systems | Makes suggestions to modify existing systems to improve products or services, and develops new or alternative systems. |
| Evaluation: | The student examines currently existing or preliminary solutions to programming assignments and conducts evaluations to seek improvements or enhancements. | |
| 5.0 | TECHNOLOGY | |
| 5.1 | Selects Technology | Judges which set of procedures, tools, or machines, including computers and their programs will produce the desired results. |
| Evaluation: | Various technologies (flowcharts, pseudocode, and decision logic tables) are used in programming solutions. The student must choose and apply the best technology to produce the appropriate solution for application to a particular type of problem. | |
| 6.0 | BASIC SKILLS | |
| 6.1 | Reading | Locates, understands, and interprets written information in prose and documents - including manuals, graphs, and schedules to perform tasks. Learns from text by determining the main idea or essential message; identifies relevant details, facts, and specifications; infers or locates the meaning of unknown or technical vocabulary, and judges the accuracy, appropriateness, style, and plausibility of reports, proposals, or theories of other writers. |
| Evaluation: | Students interprets and develops an understanding of textbook. Programming assignments are "word problems" which must be read and understood in order to accomplish the programming goal. | |
| 6.2 | Writing | Communicates thoughts, ideas, information, and messages in writing; records information completely and accurately; composes and creates documents such as letters, directions, manuals, reports, proposals, graphs, flow charts; uses language, style, organization, and format appropriate to the subject-matter, purpose, and audience. Includes supporting documentation and attends to level of detail; checks, edits, and revises for correct information, appropriate emphasis, form, grammar, spelling, and punctuation. |
| Evaluation: | Students communicate thoughts in writing solutions, including "user friendly" program prompts. | |
| 6.3 | Arithmetic | Performs basic computations; uses basic numerical concepts such as whole numbers and percentages in practical situations; makes reasonable estimates of arithmetic results without a calculator, and uses tables, graphs, diagrams, and charts to obtain or convey quantitative information. |
| Evaluation: | Programming assignments require the student to use basic computations. | |
| 6.4 | Mathematics | Approaches practical problems by choosing appropriately from a variety of mathematical techniques; uses quantitative data to construct logical explanations for real world situations; expresses mathematical ideas and concepts orally and in writing; and understands the role of chance in the occurrence and prediction of events. |
| Evaluation: | Formation of correct solutions to "word problems" in programming assignments requires the student to understand and choose the best mathematical approach. | |
| 6.5 | Listening | Receives, attends to, interprets, and responds to verbal messages and other cues such as body language in ways that are appropriate to the purpose; for example, to comprehend; to learn, to critically evaluate; to appreciate, or to support the speaker. |
| Evaluation: | By listening carefully the student will be able to understand and implement verbal instructions of the instructor. | |
| 7.0 | THINKING SKILLS | |
| 7.1 | Creative Thinking | Uses imagination freely, combines ideas or information in new ways, makes connections between seemingly unrelated ideas, and reshapes goals in ways that reveal new possibilities. |
| Evaluation: | Writing computer programs is inherently an exercise in creative thinking. | |
| 7.3 | Problem Solving | Recognizes that a problem exists (ie., there is a discrepancy between what is and what should or could be), identifies possible reasons for the discrepancy, and devises and implements a plan of action to resolve it. Evaluates and monitors progress, and revises plan as indicated by findings. |
| Evaluation: | The student is given written programming problems to solve. The student must apply the appropriate design and programming techniques to create or devise the correct solutions or "plan of action". | |
| 7.4 | Mental Visualization | Organizes and processes symbols, pictures, graphs, objects, or other information; for example, sees a building from a blueprint, a system's operation from schematics, the flow of work activities from narrative descriptions, or the taste of food from reading a recipe. |
| Evaluation: | As the student reads the text, hears the class lectures or reads the program specifications, the student must visualize how the different parts of the program and computer work together. | |
| 7.5 | Knowing How To Learn | Recognizes and can use learning techniques to apply and adapt new knowledge and skills in both familiar and changing situations. Involves being aware of learning tools such as personal learning styles (visual, aural, etc.), formal learning strategies (note taking or clustering items that share some characteristics), and informal learning strategies (awareness of unidentified false assumptions that may lead to faulty conclusions). |
| Evaluation: | Due to the complexity of the analysis, design, and programming discipline, many new techniques and procedures must be quickly learned and applied if the student is to successfully produce an efficient and effective program solution. | |
| 7.6 | Reasoning | Discovers a rule or principle underlying the relationship between two or more objects and applies it in solving a problem. For example, uses logic to draw conclusions from available information, extracts rules or principles from a set of objects or written text; applies rules and principles to a new situation, or determines which conclusions are correct when given a set of facts and a set of conclusion. |
| Evaluation: | The student must recognize similarities between previous programming problems solved and new problems before current design and programming techniques can be applied. | |
| 8.0 | PERSONAL QUALITIES | |
| 8.1 | Responsibility | Exerts a high level of effort and perseverance towards goal attainment. Works hard to become excellent at doing tasks by setting high standards, paying attention to details, working well and displaying a high level of concentration even when assigned an unpleasant task. Displays high standards of attendance, punctuality, enthusiasm, vitality, and optimism in approaching and completing tasks. |
| Evaluation: | To complete programming assignments on time and correctly, the student must meticulously and carefully peruse program code to find and eliminate logic and syntax errors. Computer programs either work or they do not. Accept responsibility for personal actions. Students must exert a high level of effort and perseverance to pass the course. | |
| 8.4 | Self-Management | Assesses own knowledge, skills, and abilities accurately; sets well-defined and realistic personal goals, monitors progress toward goal attainment and motivates self through goal achievement; exhibits self-control and responds to feedback unemotionally and non-defensively, is a 'self-starter.' |
| Evaluation: | To complete programming and homework assignments on time the student must manage his/her activities by setting time dependent goals. Program development must be monitored to ensure completion on time. | |
| 8.5 | Integrity/Honesty | Can be trusted. Recognizes when faced with making a decision or exhibiting behavior that may break with commonly held personal or societal values; understands the impact of violating these beliefs and codes on an organization, self, and others; and chooses an ethical course of action. |
| Evaluation: | The student exhibits integrity and honesty by not copying the programs of other students; by not cheating on exams and quizzes; by admitting fault when errors are made in design or program creation. |
A written, comprehensive final examination, not to exceed two and one-half hours in length, shall be given at the end of each semester for each course at the regularly scheduled time. Any exceptions to these requirements must be approved by the appropriate dean. Other examinations are given at the discretion of the instructor.
A student who must be absent from a final examination should petition that instructor for permission to postpone the examination. A student absent without permission from a final examination is graded “F.” Postponed examinations result in a grade of “I.” The final exam must be taken within 120 calendar days from the end of the semester or the grade automatically becomes an “F.” (San Antonio College Bulletin, Faculty Handbook - January 1995)
Tutorial Support Policy: The CIS Department makes every effort to provide tutorial support for the students. The names of department tutors and their hours are posted on the CIS bulletin board. Students are also encouraged to make appointments with their instructors if they are in need of help. All faculty members should be available during their posted office hours.
Department Software Policy: Use of equipment and software will be for CIS course-related activities ONLY.
See instructor’s web page.
San Antonio College does not discriminate on the basis of race, religion, color, national origin, sex, age, or disability with respect to access, employment programs or services.
Students are urged not to bring children to either a class or a lab. Minors under the age of twelve (12) must not be left unattended on campus. College Academic Council - April, 1998
ADA Statement: “As per Section 504 of the Vocational Rehabilitation Act of 1973 and the Americans with Disabilities Act of 1990, if accommodation is needed contact the Office of DisABILITY Support Services, CAC 124C, Phone: (210) 486-0020. ”
A Rapid Response Team exists for the purpose of responding to emergencies. If you have a disability that will require assistance in the event of a building evacuation, notify Disability Support Services, Chance Academic Center 124C, Phone: (210) 486-0020.
Academic Dishonesty: Students may be subject to disciplinary proceedings resulting in an academic penalty or disciplinary penalty for academic dishonesty. Academic Dishonesty includes, but is not limited to, cheating on a test, plagiarism and collusion. For additional information refer to the “Student Code of Conduct” in the San Antonio College Bulletin.
Students are required to silence all electronic devices (e.g., pagers, cellular phones, etc.) when in classrooms, laboratories and the library. College Academic Council, 01/2000.
San Antonio College Attendance Policy: Regular and punctual attendance at all classes and laboratories, day and/or evening, is required. A student absent for any reason is responsible for all work missed. Both tardiness and early departure form class are forms of absenteeism. The instructor establishes the policy with regard to each. Absences of each student are recorded without exception. The counting of absences begins on the first day of class. A student absent the equivalent of two weeks of instruction in a 16-week semester may be dropped by the instructor. If a student is dropped from a class for excessive absences, the instructor will record a grade of “W” (withdraw). It is the student’s responsibility to ensure that the withdrawals have been submitted.
San Antonio College is a smoke free campus.
ACCD DPS Emergency Phone Numbers:
| ACCD DPS Emergency Phone | (210) 485-0001 |
| ACCD DPS General Phone | (210) 485-0099 |
| ACCD DPS Weather Phone | (210) 485-0189 (For information on college closures) |
Students must also abide by the policies, procedures, and rules set forth in the “Student Code of Conduct” and all other policies set forth in the San Antonio College Bulletin. www.accd.edu/sac/sacmain/schedule/SAC_Bulletin_2007_2008/07_08_bulletin.pdf.