Graduate Certificate in Applied A.I. Solutions Development (Co-op)

at George Brown College - Casa Loma Campus Canada

As the Information Technology (IT) sector continues to grow in Toronto and our industry partners report skills shortages, George Brown College is helping to meet employer demand by educating IT professionals who understand all aspects of computer systems. Our two-year Computer Systems Technician program provides students with a broad and in-depth technical base, through courses in the high-demand areas of system support, network administration and web technologies. The curriculum prepares graduates with the strong administration, troubleshooting and design skills they need for careers in IT.

As the Information Technology (IT) sector continues to grow in Toronto and our industry partners report skills shortages, George Brown College is helping to meet employer demand by educating IT professionals who understand all aspects of computer systems. Our two-year Computer Systems Technician program provides students with a broad and in-depth technical base, through courses in the high-demand areas of system support, network administration and web technologies. The curriculum prepares graduates with the strong administration, troubleshooting and design skills they need for careers in IT.

George Brown continues to invest in up-to-date networking, wireless and security lab equipment to help students develop hands-on installation, configuration and troubleshooting skills. Students use the NetLab platform, which enables them with 24/7 remote access to Cisco Systems physical equipment. This investment, along with our hands-on teaching environment, was recognized by Cisco when the college was designated an Area Support Centre and Instructor Training Centre.

Graduates of the Computer Systems Technician program are prepared to write several industry certification exams that are in demand by employers.

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

• Identify, analyze, develop, implement, verify and document the requirements for a computing environment.
• Contribute to the diagnostics, troubleshooting, documenting and monitoring of technical problems using appropriate methodologies and tools.
• Implement and maintain secure computing environments.
• Implement robust computing system solutions through validation testing that aligns with industry best practices.
• Communicate and collaborate with team members and stakeholders to ensure effective working relationships.
• Select and apply strategies for personal and professional development to enhance work performance.
• Adhere to ethical, legal and regulatory requirements and/or principles in the development and management of computing solutions and systems.
• Assist with the implementation of computer systems.
• Install, configure, troubleshoot, maintain, upgrade and decommission computing system infrastructures.
• Automate routine tasks using scripting tools and programming languages.
• Provide technical support for computing system infrastructures that aligns with industry best practice.
• Implement the basic concept, principles, and scope of DevOps.
• Apply task automation using configuration management and the Cloud.
• Automate network administrative tasks across distributed clients.

The program covers installation, testing, maintenance, analysis and troubleshooting of specified electrical circuits, equipment and systems under the supervision of a qualified person. Throughout the program, students will learn to apply health and safety standards to their work, and perform tasks in accordance with the standards of the Canadian Electrical Code.

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

• Assist in the interpretation and preparation of electrical drawings including other related documents and graphics.
• Analyze and solve simple technical problems related to basic electrical systems by applying mathematics and science principles.
• Use and maintain test and instrumentation equipment.
• Assemble basic electrical circuits and equipment to fulfill requirements and specifications under the supervision of a qualified person.
• Assist in the installation and troubleshooting of basic electrical machines and associated control systems under the supervision of a qualified person.
• Assist in testing and troubleshooting electrical and electronic circuits, equipment, and systems by using established procedures under the supervision of a qualified person.
• Assist in the troubleshooting of control systems under the supervision of a qualified person.
• Use computer skills and tools to solve basic electrical related problems.
• Assist in conducting quality assurance procedures under the supervision of a qualified person.
• Assist in the preparation and maintenance of records and documentation systems.
• Install and assist in testing telecommunication systems under the supervision of a qualified person.
• Apply health and safety standards and best practices to workplaces.
• Perform tasks in accordance with relevant legislation, policies, procedures, standards, regulations, and ethical principles.
• Apply basic electrical cabling requirements and install and test system grounding for a specified number of applications under the supervision of a qualified person.
• Identify problems and troubleshoot electrical systems under the supervision of a qualified person.
• Assist in the selection of electrical equipment, systems and components to fulfill the requirements and specifications under the supervision of a qualified person.

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.

Employment opportunities in the Welding trade span several industries including transportation, petro chemical, oil and gas, aerospace, fabrication, manufacturing, pipelines, mining and construction.

George Brown’s Welding Techniques program prepares students with practical, hands-on experience that applies the technical theory and elements of the welding field. Students articulate their technical and essential employability skills through an e-portfolio, based on skill development throughout the program.

At the end of this intense, two-semester program, students will have the opportunity to challenge the shielded metal arc weld test, in accordance with CSA W47.1/W59 standards, in a position(s) of their choosing through the Canadian Welders Bureau. (This test will be voluntary and at an extra cost to the student.)

This experiential program will provide you the skills to master five of the most common types of welding processes:

• Shielded Metal Arc Welding (SMAW): This process uses a consumable electrode covered with flux. It is the primary type of welding used in the maintenance and repair industry. Arc welding is usually used to weld iron and steel, although it can also be used for alloys (aluminum, nickel, etc.).
• Gas Metal Arc Welding (GMAW): This welding process uses electricity to melt and join pieces of metal together. It is generally regarded as one of the easiest types of welding to learn. It is also called Gas Metal Arc Welding (GMAW). It can be used to weld a variety of metals such as carbon steel, stainless steel, aluminum, magnesium, copper, bronze, etc.
• Gas Tungsten Arc Welding (GTAW): The process uses a non-consumable tungsten electrode that delivers the current to the welding arc. The tungsten and weld puddle are protected and cooled with an inert gas, typically argon or helium. It is most commonly used for welding stainless steel and non-ferrous metals like aluminum, magnesium and copper alloys.
• Plasma Arc and Oxyfuel Cutting: This process utilizes an electrode and compressed gas, forced at high speeds through a nozzle, usually copper, to cut metal, primarily mild steel, stainless steel and aluminum. Oxyfuel cutting uses fuel gases combined with oxygen to cut metals, usually steel.
• Fabrication: Metal fabrication is the building of metal structures by cutting, bending, and assembling processes. It is a value added process that involves the construction of machines and structures from various raw materials.

Program Learning Outcomes

• The graduate has reliably demonstrated the ability to:
  • Perform work responsibly and in compliance with the Occupational Health and Safety Act and industry processes and procedures, including demonstrating learned knowledge of WHMIS.
  • Interpret engineering drawings and blueprints to produce basic graphics and welding projects as required by industry.
  • Select, plan, and demonstrate sustainable metal fabrication operations using industrial metal fabrication machinery and emerging technologies.
  • Perform basic technical measurements and welding functions accurately, using appropriate equipment and welding techniques.
  • Create welds on various types of materials and joints in the major welding positions to industrial standards and codes.
  • Use shop tools and equipment to manufacture, assemble, maintain and repair components according to required specifications and industry standards.
  • Interact effectively and professionally in shop environments, both independently and with fellow workers and other tradespeople.
  • Assess weld quality and implement corrective action where required to follow quality control and quality assurance procedures and meet organizational standards and requirements.
  • Create a professional development plan that addresses one’s strengths and areas for growth in the greater context of the welder profession.

Electromechanical Engineering Technology – Power and Control is designed to provide students with both theoretical and practical experience, enabling them to work in a wide variety of electrical engineering areas including power and control systems, utilities, industrial automation and robotics, instrumentation and process control. The curriculum incorporates theory, applications, practical experience and safety practices from power systems, utilities, manufacturing, control system, automation and computer industries, along with concepts from the sciences and humanities to ensure the graduate is equipped with technical knowledge, skills and practice.

This Sustainable Fashion Production graduate certificate program prepares graduates to manage the manufacturing process of small batch apparel products. Pre-production analysis, selection of appropriate techniques and technology, flow and efficiency, human resource ethics, environmental concerns, and quality and costing are assessed and applied for the sustainable production of small batch apparel products.

Students will examine manufacturing methods including lean, machinery, material requirements and production flow, and observe first hand the development and manufacture of apparel products. Management of production will be experienced through the development of costing, capacity, process mapping, work measurement, value stream mapping and other planning tools.

Students will learn to conduct an analysis of environmental impact aand ethical treatment of production workers to discern optimum sustainable product development and manufacturing decisions. Students will use industry technology, such as product lifecycle management tools, to track apparel products through product development and manufacturing stages. While the context of this program is apparel, the processes, management tools and knowledge could be applied to product design in other fields.

Your Field Education Options

• Students complete a Field Education preparation course in semester 2 and will be required to connect with an industry employer where they must complete 160 hours of field education in semester three.

Program Learning Outcomes

• The graduate has reliably demonstrated the ability to:
  • Select appropriate apparel production techniques and technology (e.g. machines, cutting room) to optimize manufacturing results.
  • Manage the manufacture of garments using lean manufacturing and small batch production principles.
  • Implement pre-production processes, including textile sourcing and equipment analysis, to ensure sustainable production.
  • Manage the steps of the manufacturing process using product lifecycle management tools and software.
  • Assess apparel manufacturing processes for evidence of social, environmental and economic sustainability.
  • Perform costing, time, and plant layout to determine production flow and efficient use of resources.
  • Analyze cost and quality of materials to inform product development and manufacturing decisions.

The evolution of information and communication technologies is transforming the health-care system and creating new ways of accessing and exchanging information that will impact the health-care sector. Health-care and information systems professionals currently employed or with experience in a health-care or technology environment, or who have an interest in the advancement of information technologies in the health-care delivery sector, will be interested in this program.

The Health Informatics graduate certificate program brings together professionals in health-related and information technology sectors to develop specialists in health informatics who can respond to the current and emerging needs of health-care systems. This intensive program is designed for IT, health-care or related professionals who aspire to enter into a health informatician/analyst role, or practitioners who wish to enhance their experience with formal education. Participants will be engaged and supported by a team of health informatician/business system analyst professionals and faculty in developing critical skills and competencies in the areas of:

• Health-care systems, technologies and trends
• Ethical, professional, legal and policy implications of health information systems technologies and health information standards
• Problem identification and analysis
• Documenting and analyzing health-care organization, health-user and solution requirements
• Process, workflow and system/solution modelling
• Project management
• Technical writing
• Leadership and management
• Business and system analysis techniques and core-professional competencies such as analytical thinking and problem solving, communication and facilitation, and interactional skills.

The Health Informatics program provides breadth and depth of applied knowledge in the field of health informatics. A key characteristic that sets this graduate certificate program apart is the applied nature of the curriculum. Students will be immersed in the process of health informatics/analysis through case studies, industry projects, and practical work experience, and will be responsible for developing solutions. The uniqueness of this program is in creating graduates with work-ready skills built through applied, hands-on experience.

Graduates of the program will have acquired knowledge, skills and competencies relevant to professional certification programs in Health Informatics/Information and Management Systems.

Graduates will be able to:

• Formulate change strategies to implement appropriate health information systems technologies (HIST) within the health-care setting.
• Apply business and system analysis techniques to evaluate the effectiveness of health information systems technologies within a health-related setting.
• Integrate relevant standards and professional, ethical and legislative requirements with the appropriate health information system technologies.
• Design training and education for the effective use of HIST.

Program Learning Outcomes

• The graduate has reliably demonstrated the ability to:
  • Assess organizational requirements for health information system technologies (HIST).
  • Formulate strategies for the selection and implementation of HIST.
  • Design and deliver educational/training strategies for end-users.
  • Evaluate the impact of HIST on business/clinical processes, and on health services delivery.

The Fashion Management program prepares you with essential knowledge and skills required to meet the Canadian fashion industry's core business needs. You will gain a deep understanding of textiles, manufacturing inputs and processes, and movement in the supply chain, as well as management of the value, costing and quality of apparel. You will also be able to apply the tools of marketing and merchandising to maximize product success in the market. This program is designed to meet the needs of today's Canadian market, which has shifted to product development, niche markets and omni-channel retail.

The Fashion Management program is the only academic program curriculum in Canada identified by the American Apparel and Footwear Association (AAFA) as an affiliate school. Benefits to you include an up-to-date curriculum, connection with the industry and access to industry research materials exclusively available to members.

The concepts of developing, sourcing and marketing a product from initial idea to retail sale are introduced. You will test and problem-solve for quality assurance; develop buying, merchandising and marketing plans; examine logistics processes; and work as a team to manage a retail store.

The structure of this program gives you flexibility in the choice of a career path. You will also gain relevant industry knowledge through field education experience after the first year of study. The Field Experience may be in fashion buying, production, distribution, retailing, wholesale, or a related marketing area. Students have the opportunity to network with potential employers at our FashionWorks industry event.

Note: Students starting in January will have an alternate order of courses, and will not graduate until their field education component has been completed. January intake students will complete semester two from May to August, and continue into semester three in September of the same academic year.

The School of Fashion offers a diverse, hands-on learning environment, including many extracurricular activities for students.

Program Learning Outcomes

• The graduate has reliably demonstrated the ability to:
  • Identify textile materials, assess their suitability and compatibility, and select for end use.
  • Use basic accounting concepts and financial analysis in order to interpret reports and make business decisions.
  • Make optimal sourcing decisions based on research and analysis of domestic and global sources.
  • Use merchandising concepts and retail math to develop merchandise, assortment and buying plans.
  • Communicate visually by using appropriate tools and practices to create product development packages, sales materials, and merchandising displays.
  • Apply the principles of logistics and supply chain management to operate a successful fashion business.
  • Use effective interpersonal and team skills to enhance leadership, management and sales expertise in a fashion business environment.
  • Evaluate product by applying the principles of quality control to meet appropriate standards.
  • Explain the organization and operation of the Canadian fashion industry, its role within the global economy, and identify the forces that affect it.
  • Distinguish the processes and systems used in garment manufacturing to make production decisions.
  • Apply the product development process by preparing visual materials, technical specifications, and cost analysis for a product(s) aimed at a specific target market.
  • Develop, communicate, and apply a marketing plan by combining marketing research, strategies and tactics.
  • Analyze ethics, corporate social responsibility and sustainability principles to develop best practices in the fashion industry.
  • Develop professional goals through industry exposure with an emphasis on life-long learning and personal growth.

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 Fashion Business Industry two-year diploma program at George Brown College's School of Fashion and Jewellery in Toronto gives students an introduction to all aspects of the fashion industry, from product knowledge to marketing and small business management.

The small to medium-sized business enterprise is a flourishing sector of the fashion industry and represents a great opportunity for entry into the fashion world. Smaller companies require employees who possess a variety of management skills to manage a business from the start-up stage to more developed business models. Students will be prepared for the roles and develop skills essential for the operation of a successful small fashion business. The entrepreneurial aspect of this program guides students through the process of developing a comprehensive business plan, which is essential to start a new business or manage an existing business.

Students will gain an understanding of textiles, garment construction, quality criteria and apparel merchandising. They will also learn to apply marketing, accounting, financial and other business concepts necessary for the decision-making they will encounter in their future careers.

Program Learning Outcomes

• The graduate has reliably demonstrated the ability to:
  • Use basic apparel drafting and construction skills and industrial sewing machines to complete apparel products.
  • Use standard fashion industry computer software for business and for design development.
  • Manage daily operations, resources, visual merchandising and customer relationships to ensure profitability in a retail enterprise.
  • Develop a business and finance plan for a small apparel enterprise that reflects awareness of market conditions, resources required and cash flow.
  • Apply appropriate buying, merchandising and accounting practices to support small business operations in the fashion industry.
  • Apply supply chain management and logistics to operate a successful fashion business.
  • Develop, communicate and implement a marketing plan by combining marketing research, strategies and tactics.
  • Analyze economic, fashion and industry trends to make business decisions in small and medium-sized apparel enterprises.
  • Evaluate products by applying quality control processes to meet appropriate standards.
  • Identify textile materials, asses their suitability and compatibility, and select accordingly for end use.