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2024 Fall: August 14 - December 10
Course | Class No. | Section | Start & End Date | Day | Time | Status | Location |
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2024 Fall: August 14 - December 10
Course | Class No. | Section | Start & End Date | Day | Time | Status | Location |
---|---|---|---|---|---|---|---|
CMIT 426 | Mastering the AWS Cloud (3) | ||||||
(Designed to help prepare for the AWS Certified Solutions Architect - Associate exam.) Prerequisite: CMIT 326. A hands-on study of Amazon Web Services (AWS). The goal is to understand the computing, networking, storage, and database services in AWS; apply best practices in building secure and reliable applications in the AWS cloud environment; and identify the appropriate AWS service to meet an organization's technical requirements. |
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Start date has passed. Please register for the next start date. | |||||||
82968 | 6980 | 18 Sep 2024-12 Nov 2024 | Open | Online | |||
Faculty: Bhatta, Upakar | Syllabus | Course Materials | |||||
CMIT 426 | Mastering the AWS Cloud (3) | ||||||
(Designed to help prepare for the AWS Certified Solutions Architect - Associate exam.) Prerequisite: CMIT 326. A hands-on study of Amazon Web Services (AWS). The goal is to understand the computing, networking, storage, and database services in AWS; apply best practices in building secure and reliable applications in the AWS cloud environment; and identify the appropriate AWS service to meet an organization's technical requirements. |
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84490 | 7380 | 16 Oct 2024-10 Dec 2024 | Closed | Online | |||
Faculty: Molstad, Christopher D | Syllabus | Course Materials | |||||
CMIT 426 | Mastering the AWS Cloud (3) | ||||||
(Designed to help prepare for the AWS Certified Solutions Architect - Associate exam.) Prerequisite: CMIT 326. A hands-on study of Amazon Web Services (AWS). The goal is to understand the computing, networking, storage, and database services in AWS; apply best practices in building secure and reliable applications in the AWS cloud environment; and identify the appropriate AWS service to meet an organization's technical requirements. |
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84532 | 7381 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: Howard, Christopher G | Syllabus | Course Materials | |||||
CMIT 426 | Mastering the AWS Cloud (3) | ||||||
(Designed to help prepare for the AWS Certified Solutions Architect - Associate exam.) Prerequisite: CMIT 326. A hands-on study of Amazon Web Services (AWS). The goal is to understand the computing, networking, storage, and database services in AWS; apply best practices in building secure and reliable applications in the AWS cloud environment; and identify the appropriate AWS service to meet an organization's technical requirements. |
|||||||
Start date has passed. Please register for the next start date. | |||||||
86791 | 6381 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Nwoke, Chizom O | Syllabus | Course Materials | |||||
CMIT 436 | Security in the Cloud (3) | ||||||
(Designed to help prepare for the ISC2 Certified Cloud Security Professional exam.) Prerequisite: CMIT 326. A hands-on study of cybersecurity and means for securing critical assets in cloud environments. The goal is to apply the principles of confidentiality, integrity, and availability (CIA) of digital resources in cloud environments. |
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Start date has passed. Please register for the next start date. | |||||||
82017 | 6380 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Baldwin, Jefferey R | Syllabus | Course Materials | |||||
CMIT 436 | Security in the Cloud (3) | ||||||
(Designed to help prepare for the ISC2 Certified Cloud Security Professional exam.) Prerequisite: CMIT 326. A hands-on study of cybersecurity and means for securing critical assets in cloud environments. The goal is to apply the principles of confidentiality, integrity, and availability (CIA) of digital resources in cloud environments. |
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Start date has passed. Please register for the next start date. | |||||||
82037 | 6381 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Lesick, Kenneth W | Syllabus | Course Materials | |||||
CMIT 436 | Security in the Cloud (3) | ||||||
(Designed to help prepare for the ISC2 Certified Cloud Security Professional exam.) Prerequisite: CMIT 326. A hands-on study of cybersecurity and means for securing critical assets in cloud environments. The goal is to apply the principles of confidentiality, integrity, and availability (CIA) of digital resources in cloud environments. |
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84690 | 7380 | 16 Oct 2024-10 Dec 2024 | Closed | Online | |||
Faculty: Oladele, Olalekan Joseph | Syllabus | Course Materials | |||||
CMIT 436 | Security in the Cloud (3) | ||||||
(Designed to help prepare for the ISC2 Certified Cloud Security Professional exam.) Prerequisite: CMIT 326. A hands-on study of cybersecurity and means for securing critical assets in cloud environments. The goal is to apply the principles of confidentiality, integrity, and availability (CIA) of digital resources in cloud environments. |
|||||||
84713 | 7381 | 16 Oct 2024-10 Dec 2024 | Closed | Online | |||
Faculty: Bledsoe, Johnny | Syllabus | Course Materials | |||||
CMIT 436 | Security in the Cloud (3) | ||||||
(Designed to help prepare for the ISC2 Certified Cloud Security Professional exam.) Prerequisite: CMIT 326. A hands-on study of cybersecurity and means for securing critical assets in cloud environments. The goal is to apply the principles of confidentiality, integrity, and availability (CIA) of digital resources in cloud environments. |
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87389 | 7382 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: Baldwin, Jefferey R | Syllabus | Course Materials | |||||
CMIT 440 | Mobile Forensics (3) | ||||||
(Designed to help prepare for the IACIS Certified Mobile Device Examiner [ICMDE] certification exam.) Prerequisite: CMIT 424. A project-driven study of mobile devices from a forensic perspective. The aim is to implement various techniques to collect and analyze information from mobile devices used in forensic investigations. |
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Start date has passed. Please register for the next start date. | |||||||
81139 | 6380 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Weston, Kevin D | Syllabus | Course Materials | |||||
CMIT 440 | Mobile Forensics (3) | ||||||
(Designed to help prepare for the IACIS Certified Mobile Device Examiner [ICMDE] certification exam.) Prerequisite: CMIT 424. A project-driven study of mobile devices from a forensic perspective. The aim is to implement various techniques to collect and analyze information from mobile devices used in forensic investigations. |
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83824 | 7380 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: Berryhill, Jason L | Syllabus | Course Materials | |||||
CMIT 455 | Implementing and Operating Cisco Enterprise Network Core Technologies (3) | ||||||
(Designed to help prepare for the Cisco Certified Network Professional [CCNP] Implementing and Operating Cisco Enterprise Network Core Technologies [ENCOR] certification examination. Course completion earns a Cisco-issued digital badge on the Acclaim credentials platform.) Prerequisite: CMIT 350 or CMIT 352. A comprehensive study designed to broaden the architectural understanding and deepen the implementation skills required in today's enterprise networks. Discussion covers switching, routing, wireless, and related security topics, along with the technologies that support software-defined programmable networks. Students may receive credit for only one of the following courses: CMIT 451 or CMIT 455. |
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Start date has passed. Please register for the next start date. | |||||||
81883 | 6380 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: O'Brien, Vincent H | Syllabus | Course Materials | |||||
CMIT 455 | Implementing and Operating Cisco Enterprise Network Core Technologies (3) | ||||||
(Designed to help prepare for the Cisco Certified Network Professional [CCNP] Implementing and Operating Cisco Enterprise Network Core Technologies [ENCOR] certification examination. Course completion earns a Cisco-issued digital badge on the Acclaim credentials platform.) Prerequisite: CMIT 350 or CMIT 352. A comprehensive study designed to broaden the architectural understanding and deepen the implementation skills required in today's enterprise networks. Discussion covers switching, routing, wireless, and related security topics, along with the technologies that support software-defined programmable networks. Students may receive credit for only one of the following courses: CMIT 451 or CMIT 455. |
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Start date has passed. Please register for the next start date. | |||||||
82921 | 6980 | 18 Sep 2024-12 Nov 2024 | Open | Online | |||
Faculty: McDonnell, Cedric | Syllabus | Course Materials | |||||
CMIT 455 | Implementing and Operating Cisco Enterprise Network Core Technologies (3) | ||||||
(Designed to help prepare for the Cisco Certified Network Professional [CCNP] Implementing and Operating Cisco Enterprise Network Core Technologies [ENCOR] certification examination. Course completion earns a Cisco-issued digital badge on the Acclaim credentials platform.) Prerequisite: CMIT 350 or CMIT 352. A comprehensive study designed to broaden the architectural understanding and deepen the implementation skills required in today's enterprise networks. Discussion covers switching, routing, wireless, and related security topics, along with the technologies that support software-defined programmable networks. Students may receive credit for only one of the following courses: CMIT 451 or CMIT 455. |
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84360 | 7380 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: Salmon, Arthur E | Syllabus | Course Materials | |||||
CMIT 456 | Implementing Cisco Enterprise Advance Routing and Services (3) | ||||||
(Designed to help prepare for the Cisco Certified Network Professional [CCNP] Implementing Cisco Enterprise Advanced Routing and Services [ENARSI] certification examination. Course completion earns a Cisco-issued digital badge on the Acclaim credentials platform.) Prerequisite: CMIT 455. An in-depth study of the architectural understanding and implementation skills required in today's enterprise networks. The aim is to implement and troubleshoot advanced routing technologies and services including Layer 3, VPN services, infrastructure security, infrastructure services, and infrastructure automation. Students may receive credit for only one of the following courses: CMIT 452 or CMIT 456. |
|||||||
Start date has passed. Please register for the next start date. | |||||||
81888 | 6380 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Hall, Michael J. | Syllabus | Course Materials | |||||
CMIT 456 | Implementing Cisco Enterprise Advance Routing and Services (3) | ||||||
(Designed to help prepare for the Cisco Certified Network Professional [CCNP] Implementing Cisco Enterprise Advanced Routing and Services [ENARSI] certification examination. Course completion earns a Cisco-issued digital badge on the Acclaim credentials platform.) Prerequisite: CMIT 455. An in-depth study of the architectural understanding and implementation skills required in today's enterprise networks. The aim is to implement and troubleshoot advanced routing technologies and services including Layer 3, VPN services, infrastructure security, infrastructure services, and infrastructure automation. Students may receive credit for only one of the following courses: CMIT 452 or CMIT 456. |
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84366 | 7380 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: Tomasko, Stephen R. | Syllabus | Course Materials | |||||
CMIT 460 | Network Forensics (3) | ||||||
(Designed to help prepare for the Computer Security Incident Handler [CSIH] certification.) Prerequisites: CMIT 320 and CMIT 424. A project-driven study of networks from a forensics perspective. The goal is to implement various techniques that are used in forensic investigations in response to network intrusions to collect and analyze information from computer networks. |
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Start date has passed. Please register for the next start date. | |||||||
81302 | 6380 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Labarge, Edward L | Syllabus | Course Materials | |||||
CMIT 486A | Workplace Learning in Computer and Information Technology (3) | ||||||
Prerequisites: 9 credits in the discipline and prior program approval (requirements detailed online at www.umgc.edu/wkpl). The integration of discipline-specific knowledge with new experiences in the work environment. Tasks include completing a series of academic assignments that parallel work experiences. |
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Start date has passed. Please register for the next start date. | |||||||
86971 | 6980 | 14 Aug 2024-10 Dec 2024 | Open | Online | |||
Faculty: Fruchtbaum, Marc E | Syllabus | Course Materials | |||||
CMIT 486B | Workplace Learning in Computer Information Technology (6) | ||||||
Prerequisites: 9 credits in the discipline and prior program approval (requirements detailed online at www.umgc.edu/wkpl). The integration of discipline-specific knowledge with new experiences in the work environment. Tasks include completing a series of academic assignments that parallel work experiences. |
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Start date has passed. Please register for the next start date. | |||||||
86855 | 6980 | 14 Aug 2024-10 Dec 2024 | Open | Online | |||
Faculty: Champion, Donald B | Syllabus | Course Materials | |||||
CMIT 486B | Workplace Learning in Computer Information Technology (6) | ||||||
Prerequisites: 9 credits in the discipline and prior program approval (requirements detailed online at www.umgc.edu/wkpl). The integration of discipline-specific knowledge with new experiences in the work environment. Tasks include completing a series of academic assignments that parallel work experiences. |
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Start date has passed. Please register for the next start date. | |||||||
86855 | 6980 | 14 Aug 2024-10 Dec 2024 | Open | Online | |||
Faculty: Erb, Brent A | Syllabus | Course Materials | |||||
CMIT 486B | Workplace Learning in Computer Information Technology (6) | ||||||
Prerequisites: 9 credits in the discipline and prior program approval (requirements detailed online at www.umgc.edu/wkpl). The integration of discipline-specific knowledge with new experiences in the work environment. Tasks include completing a series of academic assignments that parallel work experiences. |
|||||||
Start date has passed. Please register for the next start date. | |||||||
86855 | 6980 | 14 Aug 2024-10 Dec 2024 | Open | Online | |||
Faculty: Rude, Bryan G. | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
|||||||
Start date has passed. Please register for the next start date. | |||||||
81102 | 6380 | 14 Aug 2024-08 Oct 2024 | Closed | Online | |||
Faculty: Kayl, Robert Alan | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
|||||||
Start date has passed. Please register for the next start date. | |||||||
81140 | 6381 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Chiang, Chiyun-Kwei | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
|||||||
Start date has passed. Please register for the next start date. | |||||||
81469 | 6382 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Nguyen, Uy M. | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
|||||||
Start date has passed. Please register for the next start date. | |||||||
81553 | 6383 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Bucelato, Justin Marcel | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
|||||||
Start date has passed. Please register for the next start date. | |||||||
81590 | 6384 | 14 Aug 2024-08 Oct 2024 | Closed | Online | |||
Faculty: Hellmann, Karl J | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
|||||||
Start date has passed. Please register for the next start date. | |||||||
81602 | 6385 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Fruchtbaum, Marc E | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
|||||||
Start date has passed. Please register for the next start date. | |||||||
81771 | 6386 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Champion, Donald B | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
|||||||
Start date has passed. Please register for the next start date. | |||||||
81772 | 6387 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Balaguer, Johann A | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
|||||||
Start date has passed. Please register for the next start date. | |||||||
81773 | 6388 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Gartner, Joshua P | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
|||||||
Start date has passed. Please register for the next start date. | |||||||
81942 | 6389 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Maderi, Anthony Dominic | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
|||||||
Start date has passed. Please register for the next start date. | |||||||
81961 | 6390 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Dodoo, Seth Otoo | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
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84238 | 7380 | 16 Oct 2024-10 Dec 2024 | Closed | Online | |||
Faculty: Morgan, David M | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
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84239 | 7381 | 16 Oct 2024-10 Dec 2024 | Closed | Online | |||
Faculty: Nelson, Brian E. | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
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84240 | 7382 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: McNabb, Patrick Neal | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
|||||||
84241 | 7383 | 16 Oct 2024-10 Dec 2024 | Closed | Online | |||
Faculty: Weston, Kevin D | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
|||||||
84242 | 7384 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: Gartner, Joshua P | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
|||||||
84243 | 7385 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: Kayl, Robert Alan | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
|||||||
84244 | 7386 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: Rude, Bryan G. | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
|||||||
84245 | 7387 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: Chiang, Chiyun-Kwei | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
|||||||
84246 | 7388 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: Balaguer, Johann A | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
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84247 | 7389 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: Nguyen, Uy M. | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
|||||||
84300 | 7390 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: Bucelato, Justin Marcel | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
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84308 | 7391 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: Champion, Donald B | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
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84312 | 7392 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: Gripko, Christopher J | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
|||||||
84422 | 7393 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: Boyd, Jeanette C. | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
|||||||
84434 | 7394 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: Maderi, Anthony Dominic | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
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84450 | 7395 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: Hellmann, Karl J | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
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84470 | 7396 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: Wagner, Edward D | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
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84543 | 7397 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: Bartlett, Michael W | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
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85241 | 7650 | 16 Oct 2024-10 Dec 2024 | M | 6:30P-9:30P | Closed | Dorsey Station (Hybrid) | |
Faculty: Hiett, William C | Syllabus | Course Materials | |||||
Note: Dorsey Station: Classroom assignments are subject to change. Please view the electronic board in the hallway for your classroom assignment. | |||||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
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Start date has passed. Please register for the next start date. | |||||||
86821 | 6391 | 14 Aug 2024-08 Oct 2024 | Closed | Online | |||
Faculty: Lee, Marcelle Y. | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
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Start date has passed. Please register for the next start date. | |||||||
86878 | 6392 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Potts, Philip L | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
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Start date has passed. Please register for the next start date. | |||||||
86995 | 6393 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Bartlett, Michael W | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
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87222 | 7398 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: Baylor, Arthur E | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
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87324 | 7399 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: | Syllabus | Course Materials | |||||
CMIT 495 | Cybersecurity Technology Capstone (3) | ||||||
Prerequisites: Completion of at least 27 credits of CMIT coursework. A comprehensive project-driven study of network design and security, with an emphasis on the integration of knowledge, practical applications, and critical thinking. The objective is to implement a secure and scalable network to meet organizational needs. Topics include advanced concepts in network and security design. |
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87398 | 7379 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: | Syllabus | Course Materials | |||||
CMSC 100 | Social Networking and Cybersecurity Best Practices (3) | ||||||
(Formerly CMIS 111.) A hands-on study of current social networking applications and approaches to protect against cyber-attacks and enhance personal cybersecurity. The goal is to collaborate and interact through personal and professional social networking while developing and using computer security best practices. Discussion covers issues associated with the impact of social computing on individuals and society. Projects include creating and maintaining accounts on selected social networking sites. Students may receive credit for only one of the following courses: CMIS 111 or CMSC 100. |
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Start date has passed. Please register for the next start date. | |||||||
82148 | 6380 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Pitocco, Nickolas J | Syllabus | Course Materials | |||||
CMSC 100 | Social Networking and Cybersecurity Best Practices (3) | ||||||
(Formerly CMIS 111.) A hands-on study of current social networking applications and approaches to protect against cyber-attacks and enhance personal cybersecurity. The goal is to collaborate and interact through personal and professional social networking while developing and using computer security best practices. Discussion covers issues associated with the impact of social computing on individuals and society. Projects include creating and maintaining accounts on selected social networking sites. Students may receive credit for only one of the following courses: CMIS 111 or CMSC 100. |
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Start date has passed. Please register for the next start date. | |||||||
82149 | 6381 | 14 Aug 2024-08 Oct 2024 | Closed | Online | |||
Faculty: Guster, Dennis C | Syllabus | Course Materials | |||||
CMSC 100 | Social Networking and Cybersecurity Best Practices (3) | ||||||
(Formerly CMIS 111.) A hands-on study of current social networking applications and approaches to protect against cyber-attacks and enhance personal cybersecurity. The goal is to collaborate and interact through personal and professional social networking while developing and using computer security best practices. Discussion covers issues associated with the impact of social computing on individuals and society. Projects include creating and maintaining accounts on selected social networking sites. Students may receive credit for only one of the following courses: CMIS 111 or CMSC 100. |
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Start date has passed. Please register for the next start date. | |||||||
82150 | 6382 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Ellis, Brenda L | Syllabus | Course Materials | |||||
CMSC 100 | Social Networking and Cybersecurity Best Practices (3) | ||||||
(Formerly CMIS 111.) A hands-on study of current social networking applications and approaches to protect against cyber-attacks and enhance personal cybersecurity. The goal is to collaborate and interact through personal and professional social networking while developing and using computer security best practices. Discussion covers issues associated with the impact of social computing on individuals and society. Projects include creating and maintaining accounts on selected social networking sites. Students may receive credit for only one of the following courses: CMIS 111 or CMSC 100. |
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Start date has passed. Please register for the next start date. | |||||||
83050 | 6980 | 18 Sep 2024-12 Nov 2024 | Open | Online | |||
Faculty: Copeland, Keiona A | Syllabus | Course Materials | |||||
CMSC 100 | Social Networking and Cybersecurity Best Practices (3) | ||||||
(Formerly CMIS 111.) A hands-on study of current social networking applications and approaches to protect against cyber-attacks and enhance personal cybersecurity. The goal is to collaborate and interact through personal and professional social networking while developing and using computer security best practices. Discussion covers issues associated with the impact of social computing on individuals and society. Projects include creating and maintaining accounts on selected social networking sites. Students may receive credit for only one of the following courses: CMIS 111 or CMSC 100. |
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Start date has passed. Please register for the next start date. | |||||||
83051 | 6981 | 18 Sep 2024-12 Nov 2024 | Open | Online | |||
Faculty: Copeland, Keiona A | Syllabus | Course Materials | |||||
CMSC 100 | Social Networking and Cybersecurity Best Practices (3) | ||||||
(Formerly CMIS 111.) A hands-on study of current social networking applications and approaches to protect against cyber-attacks and enhance personal cybersecurity. The goal is to collaborate and interact through personal and professional social networking while developing and using computer security best practices. Discussion covers issues associated with the impact of social computing on individuals and society. Projects include creating and maintaining accounts on selected social networking sites. Students may receive credit for only one of the following courses: CMIS 111 or CMSC 100. |
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84639 | 7380 | 16 Oct 2024-10 Dec 2024 | Closed | Online | |||
Faculty: Pitocco, Nickolas J | Syllabus | Course Materials | |||||
CMSC 100 | Social Networking and Cybersecurity Best Practices (3) | ||||||
(Formerly CMIS 111.) A hands-on study of current social networking applications and approaches to protect against cyber-attacks and enhance personal cybersecurity. The goal is to collaborate and interact through personal and professional social networking while developing and using computer security best practices. Discussion covers issues associated with the impact of social computing on individuals and society. Projects include creating and maintaining accounts on selected social networking sites. Students may receive credit for only one of the following courses: CMIS 111 or CMSC 100. |
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84640 | 7381 | 16 Oct 2024-10 Dec 2024 | Closed | Online | |||
Faculty: Beache, Vidda | Syllabus | Course Materials | |||||
CMSC 100 | Social Networking and Cybersecurity Best Practices (3) | ||||||
(Formerly CMIS 111.) A hands-on study of current social networking applications and approaches to protect against cyber-attacks and enhance personal cybersecurity. The goal is to collaborate and interact through personal and professional social networking while developing and using computer security best practices. Discussion covers issues associated with the impact of social computing on individuals and society. Projects include creating and maintaining accounts on selected social networking sites. Students may receive credit for only one of the following courses: CMIS 111 or CMSC 100. |
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84866 | 7382 | 16 Oct 2024-10 Dec 2024 | Closed | Online | |||
Faculty: Haight, Timothy W | Syllabus | Course Materials | |||||
CMSC 100 | Social Networking and Cybersecurity Best Practices (3) | ||||||
(Formerly CMIS 111.) A hands-on study of current social networking applications and approaches to protect against cyber-attacks and enhance personal cybersecurity. The goal is to collaborate and interact through personal and professional social networking while developing and using computer security best practices. Discussion covers issues associated with the impact of social computing on individuals and society. Projects include creating and maintaining accounts on selected social networking sites. Students may receive credit for only one of the following courses: CMIS 111 or CMSC 100. |
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87463 | 7383 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: | Syllabus | Course Materials | |||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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Start date has passed. Please register for the next start date. | |||||||
82136 | 6380 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Kayed, Rabiha J | Syllabus | Course Materials | |||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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Start date has passed. Please register for the next start date. | |||||||
82137 | 6381 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Castillo, David | Syllabus | Course Materials | |||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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Start date has passed. Please register for the next start date. | |||||||
82138 | 6382 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: King, Lauren Beth | Syllabus | Course Materials | |||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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Start date has passed. Please register for the next start date. | |||||||
82139 | 6383 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Butu, Emilia V | Syllabus | Course Materials | |||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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Start date has passed. Please register for the next start date. | |||||||
82140 | 6384 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Dulmage, William B | Syllabus | Course Materials | |||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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Start date has passed. Please register for the next start date. | |||||||
82141 | 6385 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Alhabashi, Khattab A | Syllabus | Course Materials | |||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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Start date has passed. Please register for the next start date. | |||||||
82142 | 6386 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Manocha, Subhash | Syllabus | Course Materials | |||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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Start date has passed. Please register for the next start date. | |||||||
82143 | 6387 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Elsaghir, Hesham M | Syllabus | Course Materials | |||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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Start date has passed. Please register for the next start date. | |||||||
82144 | 6388 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Gonzales, Matthew M | Syllabus | Course Materials | |||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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Start date has passed. Please register for the next start date. | |||||||
82145 | 6389 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Grady, Stephen Howard | Syllabus | Course Materials | |||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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Start date has passed. Please register for the next start date. | |||||||
82146 | 6390 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Haight, Timothy W | Syllabus | Course Materials | |||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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Start date has passed. Please register for the next start date. | |||||||
83045 | 6980 | 18 Sep 2024-12 Nov 2024 | Open | Online | |||
Faculty: Amores, Galo | Syllabus | Course Materials | |||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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Start date has passed. Please register for the next start date. | |||||||
83046 | 6981 | 18 Sep 2024-12 Nov 2024 | Open | Online | |||
Faculty: Durham, Jeneo Kente | Syllabus | Course Materials | |||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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Start date has passed. Please register for the next start date. | |||||||
83047 | 6982 | 18 Sep 2024-12 Nov 2024 | Open | Online | |||
Faculty: Al-Marzooq, Taghreed | Syllabus | Course Materials | |||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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Start date has passed. Please register for the next start date. | |||||||
83048 | 6983 | 18 Sep 2024-12 Nov 2024 | Open | Online | |||
Faculty: Grady, Stephen Howard | Syllabus | Course Materials | |||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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Start date has passed. Please register for the next start date. | |||||||
83049 | 6984 | 18 Sep 2024-12 Nov 2024 | Open | Online | |||
Faculty: Bajracharya, Chandra | Syllabus | Course Materials | |||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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84635 | 7380 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: Johnson, Tiffany N | Syllabus | Course Materials | |||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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84636 | 7381 | 16 Oct 2024-10 Dec 2024 | Closed | Online | |||
Faculty: Anyanso, Chukwuma | Syllabus | Course Materials | |||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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84637 | 7382 | 16 Oct 2024-10 Dec 2024 | Closed | Online | |||
Faculty: Thomas, Darren J | Syllabus | Course Materials | |||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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84638 | 7383 | 16 Oct 2024-10 Dec 2024 | Closed | Online | |||
Faculty: Dao, Hung | Syllabus | Course Materials | |||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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84837 | 7379 | 16 Oct 2024-10 Dec 2024 | Closed | Online | |||
Faculty: Kayed, Rabiha J | Syllabus | Course Materials | |||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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84857 | 7378 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: Pender, Tiffany M | Syllabus | Course Materials | |||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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84903 | 7391 | 16 Oct 2024-10 Dec 2024 | Closed | Online | |||
Faculty: Manocha, Subhash | Syllabus | Course Materials | |||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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85242 | 4060 | 16 Oct 2024-10 Dec 2024 | W | 6:30P-9:30P | Open | College Park (Hybrid) | |
Faculty: Alhabashi, Khattab A | Bldg/Room: Hornbake Library (Undergrad) 0109 | Syllabus | Course Materials | ||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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85292 | 4020 | 14 Aug 2024-08 Oct 2024 | W | 6:30P-9:30P | Open | College Park (Hybrid) | |
Faculty: Chan, Philip W | Bldg/Room: Hornbake Library (Undergrad) 0125 | Syllabus | Course Materials | ||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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87364 | 7392 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: Mentzos, Terrence W. | Syllabus | Course Materials | |||||
CMSC 105 | Introduction to Problem-Solving and Algorithm Design (3) | ||||||
(Formerly CMIS 102.) A study of techniques for finding solutions to problems through structured programming and stepwise refinement. The objective is to design programs using pseudocode and implement them in an appropriate programming language. Hands-on practice in debugging, testing, and documenting is provided. Topics include principles of programming, the logic of constructing a computer program, and the practical aspects of integrating program modules into a cohesive application. Algorithms are used to demonstrate programming as an approach to problem-solving. Students may receive credit for only one of the following courses: CMIS 102,CMIS 102A, CMSC 101, or CMSC 105. |
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87464 | 7393 | 16 Oct 2024-10 Dec 2024 | Open | Online | |||
Faculty: | Syllabus | Course Materials | |||||
CMSC 115 | Introductory Programming (3) | ||||||
(Formerly CMIS 141.) Prerequisite: CMSC 105 (or CMIS 102). A study of structured and object-oriented programming using the Java language. The goal is to design, implement, test, debug, and document Java programs, using appropriate development tools. Projects require the use of algorithms, simple data structures, and object-oriented concepts. Students may receive credit for only one of the following courses: CMIS 141, CMIS 141A, or CMSC 115. |
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Start date has passed. Please register for the next start date. | |||||||
82151 | 6380 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Seiter, Linda | Syllabus | Course Materials | |||||
CMSC 115 | Introductory Programming (3) | ||||||
(Formerly CMIS 141.) Prerequisite: CMSC 105 (or CMIS 102). A study of structured and object-oriented programming using the Java language. The goal is to design, implement, test, debug, and document Java programs, using appropriate development tools. Projects require the use of algorithms, simple data structures, and object-oriented concepts. Students may receive credit for only one of the following courses: CMIS 141, CMIS 141A, or CMSC 115. |
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Start date has passed. Please register for the next start date. | |||||||
82152 | 6381 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Marcello, Cynthia V. | Syllabus | Course Materials | |||||
CMSC 115 | Introductory Programming (3) | ||||||
(Formerly CMIS 141.) Prerequisite: CMSC 105 (or CMIS 102). A study of structured and object-oriented programming using the Java language. The goal is to design, implement, test, debug, and document Java programs, using appropriate development tools. Projects require the use of algorithms, simple data structures, and object-oriented concepts. Students may receive credit for only one of the following courses: CMIS 141, CMIS 141A, or CMSC 115. |
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Start date has passed. Please register for the next start date. | |||||||
82153 | 6382 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Rowson, Rebecca R | Syllabus | Course Materials | |||||
CMSC 115 | Introductory Programming (3) | ||||||
(Formerly CMIS 141.) Prerequisite: CMSC 105 (or CMIS 102). A study of structured and object-oriented programming using the Java language. The goal is to design, implement, test, debug, and document Java programs, using appropriate development tools. Projects require the use of algorithms, simple data structures, and object-oriented concepts. Students may receive credit for only one of the following courses: CMIS 141, CMIS 141A, or CMSC 115. |
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Start date has passed. Please register for the next start date. | |||||||
82154 | 6383 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Luo, Angelo Y | Syllabus | Course Materials | |||||
CMSC 115 | Introductory Programming (3) | ||||||
(Formerly CMIS 141.) Prerequisite: CMSC 105 (or CMIS 102). A study of structured and object-oriented programming using the Java language. The goal is to design, implement, test, debug, and document Java programs, using appropriate development tools. Projects require the use of algorithms, simple data structures, and object-oriented concepts. Students may receive credit for only one of the following courses: CMIS 141, CMIS 141A, or CMSC 115. |
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Start date has passed. Please register for the next start date. | |||||||
82155 | 6384 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Elms, Michael A | Syllabus | Course Materials | |||||
CMSC 115 | Introductory Programming (3) | ||||||
(Formerly CMIS 141.) Prerequisite: CMSC 105 (or CMIS 102). A study of structured and object-oriented programming using the Java language. The goal is to design, implement, test, debug, and document Java programs, using appropriate development tools. Projects require the use of algorithms, simple data structures, and object-oriented concepts. Students may receive credit for only one of the following courses: CMIS 141, CMIS 141A, or CMSC 115. |
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Start date has passed. Please register for the next start date. | |||||||
82156 | 6385 | 14 Aug 2024-08 Oct 2024 | Open | Online | |||
Faculty: Dinsoreanu, Mihaela | Syllabus | Course Materials | |||||
CMSC 115 | Introductory Programming (3) | ||||||
(Formerly CMIS 141.) Prerequisite: CMSC 105 (or CMIS 102). A study of structured and object-oriented programming using the Java language. The goal is to design, implement, test, debug, and document Java programs, using appropriate development tools. Projects require the use of algorithms, simple data structures, and object-oriented concepts. Students may receive credit for only one of the following courses: CMIS 141, CMIS 141A, or CMSC 115. |
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Start date has passed. Please register for the next start date. | |||||||
83052 | 6980 | 18 Sep 2024-12 Nov 2024 | Open | Online | |||
Faculty: Arvi, Marie S | Syllabus | Course Materials |
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