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

at George Brown College - Casa Loma Campus Canada

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.

The Honours Bachelor of Technology (Construction Management) program provides a dynamic curriculum that integrates theory, applied research, field study and hands-on practical education. Recognizing that today’s successful construction manager must possess both technical and managerial competencies, the curriculum combines studies in construction science and technology with studies in business and management methods as applied to construction.

Students obtain the knowledge and skills to manage the functions and processes of construction projects from start to finish. They master construction-related technical disciplines and soft skills that are critical to completing projects on time and within budget. Graduates of this program are entitled to the academic credential designation of Hons. B.Tech. (Construction Management).

The Honours Bachelor of Technology (Construction Management) program is well recognized by the construction industry and is fully accredited by the Canadian Institute of Quantity Surveyors (CIQS), the Chartered Institute of Building (CIOB), and the Royal Institution of Chartered Surveyors (RICS). Graduates of this program are qualified to obtain professional memberships in various construction management associations. Professional memberships are based on the candidate’s education, training, and work experience.

With the completion of this degree program, graduates will have satisfied all academic requirements for professional membership of the Chartered Institute of Building (CIOB), the Canadian Institute of Quantity Surveyors (CIQS), and the Royal Institution of Chartered Surveyors (RICS). Memberships in these associations must be applied for separately.

Graduates also qualify to obtain their Gold Seal Certification (GSC) offered by the Canadian Construction Association (CCA) to become certified Superintendents, Estimators, Project Managers, Construction Managers, and Construction Safety Coordinators.

Your Field Education Options
WORK TERM

An integral component of the Honours Bachelor of Technology (Construction Management) degree program is a mandatory field study or Work Term offered in the Spring/Summer of the third year of the program. The Work Term is jointly facilitated through the Angelo DelZotto School of Construction Management and the Centre for Construction and Engineering Technologies (CCET)’s Industry Liaison Office (ILO).

Prior to the Work Term, students participate in job preparation courses that cover areas such as workplace communication practices, resume writing, job search strategies and interview practice to enable them to communicate clearly and effectively. In the field settings, students practice team-building, managing, and tracking project resources, analyzing project performance, preparing technical proposals and reports, and improving their construction project management skills.

Students are required to complete a minimum of 14 weeks of full-time work experience, or part-time equivalent of no less than 420 hours of verifiable work experience, in the field of construction management in order to fulfill the Work Term requirement.

Students are allowed to complete the Work Term requirement through the following pathways:

Field Placement: Students register in the Work Term course (TCOP 1001), secure field placement in a relevant construction field, obtain a minimum of 14 weeks of full-time fieldwork experience, or part-time equivalent of no less than 420 hours of relevant fieldwork experience, and pass the course.

Prior Learning Assessment Recognition (PLAR): Students who have prior work experience equivalent to the minimum requirement (that is, minimum of 14 weeks of full-time or part-time equivalent of no less than 420 hours of relevant work) can seek to complete the Work Term requirement of the program through the PLAR process

WORK/STUDY ABROAD OPPORTUNITIES

There is also a work/study abroad opportunity that will allow a limited number of students to complete one month of field studies at Shanghai Urban Construction College (SUCC) in China, including two weeks of studies and two weeks of work. SUCC is a multi-divisional college that serves 6,000 students with over 400 faculty members.

Program Learning Outcomes

• The graduate has reliably demonstrated the ability to:
  • Use relevant media to communicate all manner of information related to a construction project.
  • Analyze the past performance of construction projects to predict and improve the execution of future projects.
  • Manage construction projects in a compliant, safe, ethical and sustainable manner.
  • Apply management tools and techniques to execute construction projects on time and within budget.
  • Recognize and value the diversity of opinions, processes, and approaches in executing construction projects.
  • Incorporate effective leadership strategies to develop high-functioning, multidisciplinary and multicultural teams and work groups.
  • Apply the principles and practices of leadership development and human resources to manage and develop people in the construction industry.
  • Analyze technical problems encountered in construction projects and develop appropriate solutions in accordance with the principles and practices of construction science and management.
  • Apply business, accounting and financial principles and practices to effectively manage construction project costs.
  • Apply the principles and practices of construction management in assessing the key performance indicators of construction projects.
  • Evaluate potential risks impacting construction projects and devise appropriate risk mitigation strategies.
  • Create technical documents relevant to the design, procurement and execution of construction projects and manage documentation flow effectively.
  • Behave in a fair, ethical and responsible manner consistent with professional codes of conduct, laws, policies and contracts.

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.

A solid grounding in engineering sciences and practical hands-on experience in mechanical shops and computer assisted design laboratories provide the combination of applied and theoretical knowledge that employers expect in today’s integrated work environments.

In the third year of the program, teams plan and craft their own creations that require the application of all of the knowledge accumulated throughout the program. Once built, projects such as medical devices, entertainment equipment, solar-powered products and automotive accessories are often put on display and form an important part of the student assessment. More importantly, graduates learn to work in teams while solidifying their mechanical engineering knowledge and skills.

Note: If you enrol in the program in January, you must complete semester 2 in the summer (May to August) of the same year.

Your Field Education Options
Field study in the form of applied research is provided to all students.

Some students will also have the opportunity to complete a Co-op term. Co-op participants will be selected based on their academic performance, including a minimum GPA of 3.0 and an interview component.

Program Learning Outcomes

• The graduate has reliably demonstrated the ability to:
  • Communicate clearly and concisely in written, graphic and oral form using appropriate formal and informal vocabulary and formats.
  • Display appropriate responsible attitudes.
  • Carry out established design procedures, making use of handbooks, catalogues, specifications, and codes. He/she should be able to recognize problems and apply established engineering practice to arrive at practical solutions.
  • Prepare and interpret detail drawings, assembly drawings and compile technical specifications.
  • Inspect, conduct tests, and compare and compile data in accordance with standard formats and procedures.
  • Assist in the planning, operation, control, and improvement of manufacturing and production processes.
  • Participate in the installation and maintenance of equipment and systems.

The Building Information Modeling Management graduate certificate program is designed to provide hands-on training to students to enable them to apply and integrate the principles of Building Information Modeling (BIM) to all aspects of a project from conceptualization to operation. Graduates of this program will be able to deploy BIM applications in any organization involved in the procurement, design, construction and operation of building facilities. Successful students will also be able to deploy BIM technologies and BIM Management processes to all phases of a construction project.

Today, few organizations make any significant plans without thoroughly understanding the Information Technology (IT) implications. IT professionals are a vital part of decision-making business teams. George Brown College answers this need with its three-year (six-semester) Computer Programmer Analyst program. The broad education in programming and IT analysis that it offers can provide you with a stable platform for career growth in the rapidly expanding and ever-changing world of information technology.

During the first two years of the program, you will develop the skills and techniques required for software application development and testing. The industry tells us they are looking for Computer Programmer Analysts with “the total package.” So the third year includes advanced technical skills in areas such as systems analysis and design techniques – and continues to develop communications, teamwork and other client service skills such as needs assessment, sales, and presentation methods.

George Brown offers other distinct advantages:

• Students are involved in project-based and experiential learning.
• In the third year, students are exposed to the fast-growing game development sector.
• Students are also exposed to mobile application development using the latest mobile devices.

*If you enrol in January, you must complete semester 2 in the summer, May to August, in the same year.

Note: In this rapidly changing industry, program improvements are being made on an ongoing basis, which may result in course changes. Changes are made in consultation with our Program Advisory Committee, which is composed of academic staff and industry representatives from small, medium-sized and large corporations.

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 relationships.
  • 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.
  • Gather, analyze and define software system specifications based on functional and non-functional requirements.
  • Design, develop, document, implement, maintain and test software systems by using industry standard software development methodologies based on defined specifications and existing technologies/frameworks.
  • Select and apply object-oriented and other design concepts and principles, as well as business requirements, to the software development process.
  • Gather requirements and model, design, implement, optimize, and maintain data storage solutions.
  • Integrate network communications into software solutions by adhering to protocol standards.

The Gemmology program teaches you to analyze and classify a wide variety of gem materials, both natural and artificially created. The program focuses on analyzing chemical and physical characteristics of gem and gem-like materials, and identifying different gems. The gem materials are classified into categories according to their desirable characteristics, which eventually determine the value of the gems. To accomplish the identification and classification, you use a number of specially designed instruments, such as microscopes, spectroscopes, refractometers and polariscopes, on real gem materials.

Visual acuity and accurate colour rendition are essential traits for success in Gemmology.

Refractive Index liquid (RI liquid), which contains diiodomethane, is a commonly used chemical in Gemmology practice. If you are pregnant, have certain medical conditions or are sensitive to RI liquid, please consult with your physician for advice before you attend this program, as you will be exposed to RI liquid in Gemmology lab work.

Program Learning Outcomes

• The graduate has reliably demonstrated the ability to:
  • Identify a large number of gemstones and gem materials and distinguish them from synthetics and imitations.
  • Use, maintain and handle gemmological instruments and testing equipment competently and safely.
  • Grade gemstones for quality based on their cut, colour and other physical characteristics, chemical composition and possible place of origin.
  • Grade diamonds based on their cut, clarity, colour and carat weight.
  • Apply the basic skills of jewellery appraisal to assess market value.
  • Contextualize jewellery according to historical and stylistic qualities to assess provenance, materials and method of production.
  • Conduct ethical and secure business practices consistent with jewellery business standards.

The Information Systems Business Analysis graduate certificate program at George Brown College is designed to meet the urgent need for professionals who can be the key liaison between business and information technology functions within an organization. Further, George Brown is recognized by the International Institute of Business Analysis as an Academic Member, and is proud to offer the IIBA® Academic Diploma.

This intensive program is designed for IT or business professionals who aspire to enter into a business analyst role, or practitioners who wish to enhance their experience with formal education. A deeper level of understanding of the business analyst role will be developed through unique learning techniques and invaluable practical experience. Participants will be engaged and supported by a team of business analyst consultants and faculty in developing critical skills and competencies in the areas of:

• Problem identification
• Documenting and analyzing user requirements
• Process and workflow modelling
• Communication and facilitation
• Project management
• Technical writing
• Leadership and management
• Decision-making

A key characteristic of this program is the applied nature of the curriculum. Students are immersed in the process of business analysis through case histories of real-world business issues, and are responsible for developing solutions. The uniqueness of this program is in creating a practicing business analyst rather than creating someone who knows how to do it. This program creates work-ready graduates who can do, and have done, the business analysis process through applied, hands-on experience.

Design can change the world. Architectural technologists are key members of a project team and play a vital role in turning conceptual design ideas into technical construction documents and practical, buildable solutions. This three-year program provides you with the essential knowledge base and fundamental skills required to work as an architectural technologist within the many companies and sectors of the architectural and construction industry. Performing tasks of a technical nature, you will be part of a team of professionals and tradespeople involved in the building design, construction and management process.

Mobile application development is one of the fastest growing sectors of information technology. This three-semester program will help students develop a wide variety of skills related to developing, testing and deploying applications for mobile phones and tablets. The main focus of the program is the two leading platforms in mobile devices: iOS and Android.

Java and Swift programming languages are covered in this program so students have an easier transition in developing mobile applications. Client-side development tools such as HTML 5, CSS3 and JavaScript are covered, as well as aspects of server-side programming to complement mobile application development. To synthesize all learning outcomes, students will participate in either a co-op work term or applied project that will provide the experience necessary to improve graduate employability.

Students will learn strategies related to the development of mobile applications from a business perspective such as performing competitive research and exploring revenue-generating approaches. They will also be exposed to the process of App Store and Android Market submissions.

Your Field Education Options
To be eligible for co-op, a student must complete all Semester 1 and Semester 2 courses. As well, an overall GPA of 3.0 must be achieved. During the third semester of the program, students may choose whether to apply for a co-op position or take a Work Integrated Learning course that includes an industry-sponsored project.

Program Learning Outcomes

• Create meaningful design artifacts using modern software engineering methodologies and project management principles.
• Implement native mobile applications for different mobile platforms.
• Develop solution architectures to support mobile applications by applying enterprise architecture principles and best practices.
• Develop creative concepts for mobile applications that meet innovation, entrepreneurship and social enterprise objectives.
• Develop secure mobile applications by implementing the security principles, standards and best practices of mobile application development.
• Develop usable, friendly, fast and reliable mobile applications by applying the principles and best practices of User Interface design and experience (UI/UX).
• Work independently and as a team member to develop mobile application solutions for a business.
• Use industry standard testing methodologies to ensure software quality and improve software performance.
• Apply various strategies for developing competitive mobile applications.