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This is your go-to source for free AIA-approved continuing education for architects. Plus, almost all our courses are delivered in streaming HD video. Registration is fast and easy, just click on Login/Register above. Then, you can enroll in any of our courses found in any of our programs with a single click. Our courses meet or exceed NCARB's high standards for state board license renewal. AIA member? Your credit will be reported to AIA for you.

Performance Fabrics in Sustainable Design

This course aims to help educate the designer about what performance fabrics are, the content of various fabrics, how they work, and the benefits to a sustainable design in meeting and maximizing your goals of occupant health, safety, well-being, and sustainability. Windows, views, and openings in buildings present the classic battle between form and function. The designer naturally wants the building’s occupants to enjoy views and light, but the solar heat gain from these openings can wreak havoc on sustainable goals. Sophisticated and high-performing solar control fabrics can help reconcile the form and function of light, views, and sustainability.

HSW Justification:
Substantially all of this course is dedicated to a discussion of the health, safety and welfare aspects of performance fabrics through their appropriate specification, their fabrics' chemical composition, their proper use, their ability to meet safety and performance standards, and their aesthetic contribution.

Learning Objective 1:
The student will learn how to analyze shading fabrics for solar light management including energy reduction, glare and outward visibility, using published shading coefficient data.

Learning Objective 2:
The student will be able to list certification requirements for indoor air quality, anti-bacterial protection, flame retardancy, and environmental regulations.

Learning Objective 3:
The student will be able to identify fabric composition options with an emphasis on sustainable design.

Learning Objective 4:
The student will be able to apply their knowledge of performance fabric features to unique, real-world applications in healthcare, hospitality, government, business, and residential projects.

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Designing for Wellness

This article explores some of the latest products and solutions improving the air quality, thermal comfort, electric light, and daylight control that can be incorporated into a project. Each improves the wellness of the people in the built environment.

HSW Justification:
“Increased evidence shows that indoor environmental conditions substantially influence health and productivity. Building services engineers are interested in improving indoor environments and quantifying the effects. Potential health and productivity benefits are not yet generally considered in conventional economic calculations pertaining to building design and operation. Only initial costs plus energy and maintenance costs are typically considered. A few sample calculations have also shown that many measures to improve indoor air environment are cost-effective when the health and productivity benefits resulting from an improved indoor climate are included in the calculations (Djukanovic et al. 2002, Fisk 2000, Fisk et al. 2003, Hansen 1997, van Kempski 2003, Seppanen and Vuolle 2000, Wargocki, 2003.) This article explores some of the latest products and solutions improving the air quality, thermal comfort, electric light, and daylight control that can be incorporated into a project. Each improves the wellness of the built environment.

Learning Objective 1:
Explain how air circulation improves thermal comfort and alertness.

Learning Objective 2:
Describe the ways that increasing the presence of plants and greenery on a project have been shown to clean the air, reduce urban heat island effect, and positively affect the health and wellbeing of people in the built environment.

Learning Objective 3:
Summarize how circadian LED lighting technology delivers health benefits—improving overall sleep quality, daytime productivity, and feelings of wellbeing—that modern architectural lighting lacks.

Learning Objective 4:
Discuss how using an underfloor air distribution system (UFAD) improves indoor air quality.

Learning Objective 5:
Identify the latest advancements in smart window technology that allows these solutions to control glare and solar heat gains, while maintaining views to the outdoors.

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Designing with Pre-Crimped Woven Wire Mesh

Designing with Pre-Crimped Woven Wire Mesh is a streaming video course that explores interior and exterior applications and functions for woven metal mesh products in architectural design. The course examines key functions of these materials, details the manufacturing process, and outlines critical specification considerations to ensure beautiful and long lasting installations.

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Dynamic Lighting - Realities, Practicalities, Potential

Dynamic lighting, also known as tunable, color-changing, and circadian lighting, is being adopted and employed in current lighting designs.  There are many studies showing the benefits of dynamic lighting in built environments.  Early adopters have seeded the market and several lighting manufacturers now employ some level of Dynamic Lighting. This course is intended to explore what  Dynamic Lighting is, how it works in commercial luminaires, how to control it, and where the lighting community is being directed by standards, regulation, and voice of the customer. 

At the end of this course, participants will learn:

  1. Define elements of dynamic lighting.
  2. Learn the uses of dynamic lighting.
  3. See illustrations of how to control dynamic lighting.
  4. Become aware of the regulations, standards, and customer requests that are driving adoption.
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Design Building Envelopes That Support Healthy, Efficient Buildings

The building envelope separates the conditioned interior space from the environmental elements of the great outdoors, and this course explores a few solutions to equip the building envelope to defend the interior from nature's onslaughts, manage moisture, improve thermal performance, and admit daylight without glare.

HSW Justification:
Improper use of vapor barriers is one of the leading causes of moisture-related issues in buildings today. Those moisture related issues can include the growth of mold and mildew, which compromises the quality of the indoor environment and can even cause structural damage. Designing a proper air barrier system is crucial to moisture protection and protecting the thermal performance of the original design. This article provides best practices for designing an air barrier system that will function properly. We also discuss some solutions that can improve the functionality of the building envelope’s thermal performance. The course explores a translucent and an opaque solution that improve the thermal performance of the envelope, while offering additional benefits. Translucent wall panels allow diffuse, glare-free daylight into an interior, without compromising thermal efficiency at the opening and precast structural panels offer code-exceeding thermal performance and structural load-bearing capabilities.

Learning Objective 1:
Students will be able to explain why controlling air leakage in the building envelope is crucial to safeguarding the quality of the interior environment and protecting the energy efficiency of the building.

Learning Objective 2:
Students will learn to apply best practices to design an air barrier system that will effectively manage moisture intrusion and avoid moisture-related issues in the building envelope.

Learning Objective 3:
Students will be able to describe how translucent daylight panels allow daylight into the interior, mitigate glare and provide better thermal performance than many other glazing solutions.

Learning Objective 4:
Students will learn to use structural precast concrete panels to reduce the amount of perimeter steel needed on a project, while achieving and exceeding code-compliant thermal performance.

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Innovative Solutions for Architectural Challenges

Operable glass walls can provide for flexible interior spaces, safer interior environments, rapid and highly accessible connections to exterior spaces and all the benefits that ensue, such as fresh air, light, unobstructed views and rapid egress in the event of emergency. This course examines how operable glass walls meet those challenges and then shows the application of those principals in several case studies.

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An Introduction to Custom Balanced Doors

This course will introduce you to the custom balanced door. You will learn about the system components and the differences between a Balanced door and a conventional hinged or pivoted swing door. Then we'll take a closer look at how a balanced door works in an installation. Finally you'll learn about the specific engineering requirements needed to accommodate balanced doors.

HSW Justification:
Balanced doors are safer than conventional doors because they require a smaller interference zone on the sidewalk. Also, they open with ease which benefits smaller people, weak or disabled persons, and the elderly. The majority of this course deals with those benefits and with the mechanical features of the door that make these health and safety benefits possible.

Learning Objective 1:
Understand the differences between the balanced door and a conventional hinged or pivoted swing door

Learning Objective 2:
Know specific requirements for ADA handicap guidelines LO 5: Understand how the balanced door interfaces with power operation LO 6: Understand specific engineering requirements to accommodate balanced doors

Learning Objective 3:
Understand what components make up a typical balanced door system

Learning Objective 4:
Know how the design concept works in an actual installation

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WELL Building Standard | Version 2

The WELL Light concept promotes exposure to light and aims to create lighting environments that are optimal for visual, mental and biological health. This session explores the elements that make up the WELL Lighting concept and provides insights and recommendations for designing to these standards.

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