Advanced Diploma in Computer Programming and Analysis

at George Brown College - Casa Loma Campus Canada

Robotics, controls and process automation are cornerstones of modern production facilities and automated systems. Our multidisciplined and hands-on approach to learning culminates in a capstone project in which students design and produce a complex, integrated, fully functional electromechanical system by applying their accumulated theoretical and practical knowledge.

Students complement their technical skills with a focus on the soft skills needed to establish a successful career and add value to any team. Students will learn from faculty who are experienced in both the workplace and the teaching environment.

The industry-relevant curriculum is delivered through hands-on learning in the college’s machine shops, electrical and industrial automation laboratories, process controls and robotics facilities, to ensure that graduates can move quickly and directly into industry.

Note: If you enrol in the program in January you are required to complete semester 2 in the summer (May to August) of the same year in order to continue into semester 3 in the fall.

Program Learning Outcomes

• The graduate has reliably demonstrated the ability to:
  • Fabricate and build electrical, electronic, and mechanical components and assemblies in accordance with operating standards, job requirements, and specifications.
  • Interpret and produce electrical, electronic, and mechanical drawings and other related technical documents and graphics for a variety of stakeholders in compliance with industry standards.
  • Select and use a variety of troubleshooting techniques and equipment to assess, maintain, and repair electromechanical circuits, equipment, processes, systems, and subsystems.
  • Maintain and repair electrical, electronic, and mechanical components, equipment, and systems to ensure that they function according to specifications and to optimize production.
  • Support the design and production of mechanical components by assisting in the specification of manufacturing materials and processes.
  • Apply, analyze, build, install, commission, and troubleshoot a variety of mechanical, electrical, and electronic control systems, logic and digital circuits, passive AC and DC circuits, and active circuits.
  • Install and troubleshoot basic computer hardware and programming to support the electromechanical engineering environment.
  • Maintain and troubleshoot automated equipment including robotic systems.
  • Establish and maintain inventory, records, and documentation systems to meet organizational and industry standards and requirements
  • Select and purchase electromechanical equipment, components, and systems that fulfill job requirements and functional specifications.
  • Assist in applying quality control and quality assurance program procedures to meet organizational standards and requirements.
  • Work in compliance with relevant industry standards, laws and regulations, codes, policies, and procedures.
  • Develop strategies for ongoing personal and professional development to enhance work performance and to remain current in the field and responsive to emergent technologies and national and international standards.
  • Contribute as an individual and a member of an electromechanical engineering team to the effective completion of tasks and projects.
  • Support project management activities such as planning, implementation and evaluation of projects, and monitoring of resources, timelines, and expenditures as required.

The Plumbing Techniques program covers residential, commercial and industrial applications in the plumbing industry, paying particular attention to residential plumbing. It is a hands-on program that may benefit anyone seeking to enter an apprenticeship or any construction-related career path.

Through hands-on projects you will learn about:

• Tools, materials, equipment and methods used in the plumbing industry
• Estimating materials and labour costs
• Proper use of hand tools and power tools
• Safety practices and procedures associated with these tools

The program includes studying industry standards and building codes while considering health and safety issues and energy conservation.

Projects include:

• Constructing and testing both drain and water systems
• Learning how to install hot water heaters and a variety of residential plumbing fixtures.
• Research on the science of sanitation, water, and the forces acting on a sealed piping system with and without atmospheric pressure applied to it.
• Studying blueprints and learning basic drafting techniques that will enable you to design, comprehend and build plumbing systems.
• A final project will focus on how to maintain the plumbing system you install and those that you may encounter in the future.

Program Learning Outcomes

• The graduate has reliably demonstrated the ability to:
  • Work according to contractual obligations; the project manual; and applicable laws, standards, bylaws, and codes.
  • Perform residential plumbing projects effectively and accurately by interpreting and producing basic data in graphic, oral and written formats.
  • Work responsibly and effectively with others and in accordance with appropriate practices, procedures and in compliance with health and safety legislation.
  • Use tools and equipment for basic installation manufacture, and repair of components to required specifications.
  • Contribute to the organizing and planning of residential plumbing installation projects.
  • Solve routine problems related to work environments using a variety of systemic approaches.

The Civil Engineering Technology advanced diploma program is a three-year program that focuses on the planning, design and construction of roads, bridges, tunnels, sub-divisions, buildings, municipal services and heavy infrastructure. Students learn to ensure projects are functional, economical and meet standards and codes. There is a blend of lectures, laboratories and tutorials, with a focus on real drawing sets. There is an option for co-op.

The Civil Engineering Technology advanced diploma program includes:

• Designing reinforced concrete structures, storm, water and sanitary systems, roads and steel-framed structures.
• Interpreting construction drawings and specifications for various types of projects through extensive practical training from project drawing sets.
• Estimating, bidding, scheduling and managing/supervising projects using the latest software.
• Health and safety, site management and quality management on construction sites.
• Risk analysis and value analysis for construction projects.
• Types of contracts used by the construction industry as well as the legal aspects of construction.
• Business management techniques to pre-qualify projects based on expected returns, to create and manage a construction company and to understand the financial statements involved in running a construction business.

Program Learning Outcomes
The graduate demonstrates the ability to:

• Develop and use strategies to enhance professional growth and ongoing learning in the civil engineering field.
• Comply with workplace health and safety practices and procedures in accordance with current legislation and regulations.
• Complete duties and monitor that work is performed in compliance with contractual obligations, applicable laws, standards, bylaws, codes and ethical practices in the civil engineering field.
• Promote and carry out sustainable practices in accordance with contract documents, industry standards and environmental legislative requirements.
• Facilitate collaboration and interaction among the project team and project stakeholders to support civil engineering projects.
• Collect, process, analyze and coordinate technical data to produce written and graphical project-related documents.
• Use industry-specific electronic and digital technologies to support civil engineering projects.
• Participate in the design and modelling phase of civil engineering projects by applying engineering concepts, technical mathematics and principles of science to the review, production and/or modification of project plans.
• Contribute to the scheduling, coordination and cost estimation of civil engineering projects and monitor their progression by applying principles of construction project management.
• Coordinate and perform quality control testing and evaluate equipment, materials and methods used in the implementation and completion of civil engineering projects.
• Apply teamwork, leadership, supervision and interpersonal skills when working individually or within multidisciplinary teams to complete civil engineering projects.

In the Child and Youth Care (CYC)(Accelerated) program, you will have the opportunity to learn how to support at-risk children, youth and families by developing therapeutic skills and abilities. Over the course of 12 consecutive months (three semesters), you will learn how to build therapeutic relationships with clients and collaborate with a professional team as you develop skill sets to create a professional identity as an agent of change.

Scope of practice includes:

• Assessing risk and developmental needs of vulnerable children and families
• Designing and implementing therapeutic intervention
• Crisis intervention and safety planning with children, youth and their families
• Developing therapeutic relationships within challenging contexts
• Applying group and systems theories in milieu work
• Fostering resilience and applying a strength-based approach to assessment and intervention

This program starts in May and is delivered over 12 consecutive months (three consecutive semesters).
Students are required to successfully complete a Ministry-approved crisis intervention training certificate in their third semester.
In preparation for the field or clinical placement, students will be required to work in multiple small and large groups within classes and community settings.

Your Field Education Options
Students gain valuable hands-on experience through two supervised field placement opportunities. Each placement lasts four consecutive months and runs four days a week.
Field placement opportunities take place in agencies and institutions that offer services to the community within the Greater Toronto Area. The CYC program also offers international placement experiences when possible. 

Typical placement sites include:

• Group homes
• Schools
• Hospitals
• Youth shelters
• Community outreach programs
• Youth justice

Students are expected to work both day and evening shifts (not overnight) and may be requested to work on some weekends.

Program Learning Outcomes

• The graduate has reliably demonstrated the ability to:
  • Develop and maintain relationships with children, youth and their families applying principles of relational practice and respecting their unique life space, cultural and human diversity.
  • Assess and respond to the strengths and needs of children and youth, including complex responses impacted by developmental, environmental, physical, emotional, social and mental health challenges in order to promote positive change.
  • Analyze and evaluate the impact of the inter-relationship among family, social service, justice and community systems on children, youth and their families and use this information in the planning of holistic care and in the reduction of systemic barriers.
  • Plan, implement and evaluate interventions using evidence?informed practices in the areas of therapeutic milieu and programming, and group work to promote resiliency and to enhance development in children, youth and their families.
  • Advocate for the rights of children, youth and their families and maintain an anti-oppression perspective and cultural competence in diverse cultural contexts.
  • Apply communication, teamwork and organizational skills within the interprofessional team and with community partners to enhance the quality of service in child and youth care practice.
  • Develop and implement self-care strategies using self-inquiry and reflection processes to promote self- awareness and to enhance practice as a child and youth care practitioner.
  • Use evidence-based research, professional development resources and supervision models to support professional growth and lifelong learning.

The Computer Systems Technology program is designed with extensive input from industry and offers two optional specializations in its third year. The Networking specialization focuses on network security, voice-over-IP (VoIP) and wireless LANs. The Systems specialization focuses on mail server administration, content management systems (Collaboration), database administration and computer security. Both specializations include core courses on infrastructure virtualization (through the VMWare IT Academy) and cloud computing, along with best practices in Information Technology.

The three-year Computer Systems Technology program is designed with extensive industry input and offers two optional specializations in its third year:

The Networking specialization focuses on network security, voice-over-IP (VoIP) and wireless LANs.
The Systems specialization focuses on mail server administration, content management systems (Collaboration), database administration and computer security.
Both specializations include core courses on infrastructure virtualization (through the VMWare IT Academy) and cloud computing, along with best practices in Information Technology (IT).

George Brown College continues to invest in up-to-date networking, wireless, radio frequency, VoIP and security lab equipment, so that all students gain hands-on experience in installation and configuration of equipment ranging from small offices all the way to enterprise-class hardware and software. This investment, along with the hands-on teaching environment, was recognized by Cisco when the college was designated an Area Support Centre and Instructor Training Centre, and became part of a very select group of Cisco Networking Academies in Canada.

In the third year of the program, students will be involved, hands-on, in real-life projects or case studies. These may be completed independently, in conjunction with an industry partner, or George Brown's Office of Research and Innovation, and may include developing proposals and working in teams to plan, set schedules and achieve specific goals in the field of information technology. Through some of these projects, George Brown students have recently helped develop IT solutions for hospitals, large corporations and major IT and telecommunications service providers, including Bell Mobility, Rogers Communications, Cogeco Data Systems and many other well-known companies in the Greater Toronto Area.

This program covers all courses of the official Cisco CCNA Routing & Switching curriculum. The curriculum also prepares students to write several other examinations leading to industry certifications, such as the Certified Wireless Network Administrator (CWNA) and Cisco Certified CyberOps Associate.

Program Learning Outcomes
The graduate has reliably demonstrated the ability to:

• Identify, analyze, design, develop, implement, verify and document the requirements for a computing environment.
• Diagnose, troubleshoot, document and monitor technical problems using appropriate methodologies and tools.
• Analyze, design, implement and maintain secure computing environments.
• Analyze, develop and maintain robust computing system solutions through validation testing and industry best practices.
• Communicate and collaborate with team members and stakeholders to ensure effective working relationship.
• Select and apply strategies for personal and professional development to enhance work performance.
• Apply project management principles and tools when responding to requirements and monitoring projects within a computing environment.
• Adhere to ethical, social media, legal, regulatory and economic requirements and/or principles in the development and management of the computing solutions and systems.
• Investigate emerging trends to respond to technical challenges.
• Analyze, plan, design, implement and administer computer systems and cloud solutions.
• Research, design, deploy, configure, troubleshoot, maintain, upgrade and decommission computing system infrastructures.
• Select and apply scripting tools and programming languages to automate routine tasks.
• Install, monitor, optimize and administer a database management system in response to specified requirements.
• Design, implement and administer technical support processes for computing system infrastructures that aligns with industry best practice.

Building automation systems don't just control the basics: they regulate airflow, monitor energy use and are integrated with security, lighting and other building systems to deliver comfort, safety and energy efficiency. Today’s buildings are increasingly complex, and they differ in use and size, but also in operating hours, comfort levels and environmental conditions. Offices, residences, hotels, schools and administrative buildings all have different requirements. Optimal building services technology is the result of appropriate systems design and integration during planning, construction, commissioning and operation.

This advanced diploma program in Building Automation provides students the technical skills they need for success in the job market. Students learn to:

• Install, program, adjust and maintain building automation systems
• Program and install sensors, actuators and controllers
• Collect data for use in real-time or for archiving in a central server
• Work with building software platforms that interconnect different systems

Graduates will have a diverse set of skills and abilities that will also prepare them for "green" careers focused on energy efficiency, renewable energy and the environment. This program provides a skill set that is in high demand in both the construction industry and the controls and automation industry.

Industry Skills

• Safety practices in the installation and troubleshooting of HVAC/R systems, including applicable codes and standards of the NEC, ASHRAE, OSHA, EPA and other regulatory bodies.
• Basic HVAC/R processes and the function, layout and operation of commercial HVAC/R systems.
• Functions, operating characteristics and applications of the control loops and control modes in digital, analog and pneumatic commercial control systems.
• Blueprints and manufacturer’s technical instructions for installing or servicing a sensor, controller, actuator and related relays and power supplies.
• General-purpose software and specific building automation software that monitors and controls HVAC/R and electrical systems.
• Various BAS controls and systems, including DCS, PLC, PAC and SCADA.
• Functions of network devices and protocols, such as a bridge, router, gateway, hub, firewall, twisted pair, Ethernet, TCP/IP, Zigbee, WiFi, BAS/IP and BacNet.
• Emerging green technologies, such as solar, wind and hydronic, and how they can be integrated into building systems and residential applications.

Program Learning Outcomes
The graduate has reliably demonstrated the ability to:

• Fabricate and build electrical, electronic, and mechanical components and assemblies in accordance with operating standards, job requirements, and specifications.
• Analyze, interpret, and produce electrical, electronic, and mechanical drawings and other related technical documents and graphics necessary for electromechanical design in compliance with industry standards.
• Select and use a variety of troubleshooting techniques and equipment to assess, modify, maintain, and repair electromechanical circuits, equipment, processes, systems, and subsystems.
• Modify, maintain, and repair electrical, electronic, and mechanical components, equipment, and systems to ensure that they function according to specifications and to optimize production.
• Design and analyze mechanical components, processes, and systems by applying engineering principles and practices.
• Design, analyze, build, select, commission, integrate, and troubleshoot a variety of industrial motor controls and data acquisition devices and systems, digital circuits, passive AC and DC circuits, active circuits and microprocessor-based systems.
• Install and troubleshoot computer hardware and programming to support the electromechanical engineering environment.
• Analyze, program, install, integrate, troubleshoot and diagnose automated systems including robotic systems.
• Establish and maintain inventory, records, and documentation systems to meet organizational and industry standards and requirements.
• Select and purchase electromechanical equipment, components, and systems that fulfill job requirements and functional specifications.
• Specify, coordinate, and apply quality-control and quality-assurance programs and procedures to meet organizational standards and requirements.
• Work in compliance with relevant industry standards, laws and regulations, codes, policies, and procedures.
• Develop strategies for ongoing personal and professional development to enhance work performance and to remain current in the field and responsive to emergent technologies and national and international standards.
• Contribute as an individual and a member of an electromechanical engineering team to the effective completion of tasks and projects.
• Design and analyze electromechanical systems by interpreting fluid mechanics and the attributes and dynamics of fluid flow used in hydraulic and fluid power systems
• Contribute to project management through planning, implementation and evaluation of projects, and monitoring of resources, timelines, and expenditures as required.

The Construction Techniques program covers popular construction trade areas and has three intakes per year.

This program is designed to offer you choices when considering a career in the construction sector. It exposes you to a variety of trades allowing you to determine where your interests lie. The program will prepare you with basic skills that will assist you in taking the next steps in your career path.

• Semester 1: Electrical/Millwrighting
• Semester 2: Sheet Metal/Air Conditioning/Carpentry
• Semester 3: Welding/Steamfitting/Plumbing

Through practical projects interwoven with theoretical learning, you will gain confidence and experience in the individual trade sections, giving you the information necessary to make informed career choices as well as a good understanding of the construction process.

Program Learning Outcomes
The graduate has reliably demonstrated the ability to:

• Identify and use strategies to enhance professional growth and ongoing learning in the construction field.
• Identify and adhere to established health and safety practices.
• Perform all construction tasks in compliance with applicable laws, regulations, codes and ethical practices in the construction field.
• Work in accordance with established sustainability practices.
• Collaborate with a range of tradespersons and project stakeholders to maintain effective working relationships.
• Communicate technical information to a variety of clients, supervisors and tradespersons to participate in the successful completion of construction projects.
• Identify and use industry-specific technologies to support construction projects.
• Solve on-site trade-related construction problems using mathematical equations and geometric concepts.
• Select, maintain and safely operate hand and power tools and equipment used in the building construction trades.
• Assist in the preparation of project estimates.
• Assist skilled tradespersons and perform labouring tasks at construction sites.

This three-semester graduate certificate program provides applied education for construction management positions in the construction sector. Candidates will receive graduate-level training that builds on their internationally acquired education and experience to enable them to successfully enter the Canadian construction workforce.

Program Learning Outcomes
The graduate demonstrates the ability to:

• Develop and use strategies to promote continuous professional learning in the construction industry.
• Monitor and support workplace health and safety practices and procedures that are compliant with current legislation and regulations.
• Assess construction project operations for compliance with contractual obligations, applicable laws, standards, bylaws, codes and ethical practices in the construction industry.
• Analyze and monitor construction processes to ensure that sustainability practices are implemented in accordance with contract documents, industry standards and environmental legislative requirements.
• Establish and manage relationships among diverse project stakeholders to achieve construction project goals.
• Manage the production, storage, retrieval and communication of project-related digital documents according to best practices, to meet construction project deadlines and goals.
• Perform a feasibility study to inform decisions in the planning phase of a construction project.
• Schedule, manage and evaluate the progression of construction projects by applying the principles, practices and tools of construction project management to complete projects on time and within budget.
• Prepare estimates and manage procurement processes to control costs in accordance with best practices in construction project management.
• Develop and oversee quality assurance and control processes involved in the completion of construction projects to meet project specifications and industry quality standards.
• Analyze and manage project risks to mitigate their impact throughout the construction project lifecycle.
• Formulate human resource management strategies to optimize personnel requirements for construction project completion.
• Build and lead multidisciplinary teams throughout the construction project lifecycle to accomplish construction project goals.

The Jewellery Essentials program provides you with the skills and techniques necessary to begin a career in the jewellery industry. You will learn to saw, file, solder, grind, polish and finish metals including copper, brass, silver and gold. Fabrication and centrifugal casting techniques will be used to create jewellery pieces to high standards.

The Construction Engineering Technician program studies the characteristics of various building types with an appreciation for the latest energy and environmental technologies. The program also focuses on areas that include:

• Interpretation of construction documents
• On-site building engineering and safety
• Quantity surveying (estimating labour, materials, and equipment required for a project)
• Building codes and construction contracts
• Site management practices

Laboratory courses provide practical building layout surveys and quality control testing of various building materials. You will also gain extensive computer experience, working with general business and Building Information Modeling (BIM) software and specialized construction management and estimating software.

Your Field Education Options

• Purpose and Definition of Field Experience
  • Field experience combines classroom learning with hands-on work experience structured to meet specific curricular outcomes. This approach to education relies upon a three-way partnership: the student, the institution and industry. Success depends upon the co-operative efforts of each party. It forms the basis for students’ experiential learning which is achieved when the cycle of experience, reflection, and learning is completed. It is a mandatory component of the T161 Construction Engineering Technician program. Field experience positions can be paid or unpaid. Both fulfill the academic requirement as well as strengthen students’ resumes, positioning them more effectively for future employment.
  • The field experience requires students to accumulate 100 hours of construction industry-related experience over the course of their third and fourth semesters. The field experience is facilitated through the Angelo DelZotto (ADZ) School of Construction Management, via collaborative efforts from the academic supervisors, program coordinators, and the chair.

Program Learning Outcomes

• The graduate has reliably demonstrated the ability to:
  • Develop and use strategies to enhance professional growth and ongoing learning in the construction engineering field.
  • Comply with workplace health and safety practices and procedures in accordance with current legislation and regulations.
  • Complete duties in compliance with contractual obligations, applicable laws, standards, bylaws, codes and ethical practices in the construction engineering field.
  • Carry out sustainability practices in accordance with contract documents, industry standards, and environmental legislative requirements.
  • Collaborate with and facilitate communication among project stakeholders to support construction projects.
  • Collect, process and interpret technical data to produce written and graphical project-related documents.
  • Contribute to the collecting, interpreting and applying of survey/geomatics and layout information to implement construction projects.
  • Identify and use industry-specific electronic and digital technologies to support the design and construction of projects.
  • Contribute to the resolution of technical problems related to the design and implementation of construction projects by applying engineering concepts, basic technical mathematics, and building science.
  • Assist in the scheduling and monitoring of the progression of construction projects by applying principles of construction project management.
  • Assist in the preparation of accurate estimates of time, cost, quality and quantity, tenders and bids.
  • Perform quality control testing and monitoring of equipment, materials, and methods involved in the implementation and completion of construction projects.
  • Apply teamwork, leadership and interpersonal skills when working individually or within multidisciplinary teams to complete work on construction projects