Modern open spaces create a unique set of challenges when it comes to acoustics, particularly because many new buildings are designed with open plans and open plenums. Fortunately, there are innovative acoustic systems on the market that are designed to integrate with open plenums that can help to overcome these challenges. This course will discuss customizable acoustical solutions for open plenum design, including baffles, beams, clouds, and acoustical wall panels, which are available in a variety of materials like metal, wood, fiberglass, and felt. The course will explore the importance of acoustical design and how these open plenum ceiling systems can transform a space aesthetically while maximizing acoustics.

This course is designed to introduce the architect to egress marking systems that are used for ordinary way finding and building evacuation in emergency situations. These signage systems are meant to be selected and installed according to specific standards established by building codes. Additionally, once installed, these systems must be tested to assure their efficacy in case of an emergency. How to select and specify the appropriate markers and the technological solutions available, as well as testing methods, will all be covered in this course.

HSW Justification:
Building exit markings are critical to the health, safety, and welfare of building occupants during emergency situations.

Learning Objective 1:
When this course is complete the student will will understand egress signage obligations as imposed through building codes and standards.

Learning Objective 2:
The student will further understand the various technologies available to address those signage codes and standards.

Learning Objective 3:
And, the student will learn what the requirements are to conduct on-going testing of egress systems after installation.

Solar shading devices, while available in numerous weaves, textures, and colors, go beyond contributing to the aesthetics of a space. Specified correctly, solar shading devices can maximize daylighting benefits and contribute to occupant well-being, productivity, and engagement, while mitigating the detrimental effects of UV rays and glare.

Learning Objective 1:
Students will understand the benefits daylighting, including the psychological and physiological well-being of occupants, as well as its drawbacks, such as glare and solar heat gain

Learning Objective 2:
Students will become familiar with the types of solar shading fabrics available for use in commercial settings and their components, including operating systems, weave, color, and openness factor, and the ways in which these contribute to the control of daylighting.

Learning Objective 3:
Students will explore the benefits of solar shading devices that extend beyond light management, such as sound mitigation, sustainability, and antimicrobial properties.

Learning Objective 4:
Students will determine how to select the right fabric for an application, taking into account aesthetics and room conditions

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.

This course will discuss light pollution and its relation to the International Dark-Sky Association. After taking this course, individuals will know the impacts of light pollution as well as the difference between IDA and non-IDA lighting.

At the end of this course, participants will learn:

1. To define IDA, light pollution, and related terms
2. To identify the impacts of light pollution
3. To demonstrate the difference between IDA and non-IDA lighting
4. To assess the process of establishing IDA certification

This course will teach students how to recognize non-compliant rooftop equipment support scenarios and will discuss their impact on safety and the public health, general welfare, and property value.

This course will cover introductory level descriptions of various sectional door styles and how they impact energy efficiency, maximize ambient light, add to design aesthetics. Additionally, applicable varieties of industrial doors will also be included.

HSW Justification: Understanding upward acting door and safety device specification and installation contribute to health, safety and welfare of building occupants, including infants, children and the elderly, by helping avoid entrapment, injury, or exposure to exhaust gasses. Additionally, proper installation helps assure comfort control, energy efficiency and better design aesthetics.

Learning Objective 1: Students will be able to recognize and differentiate various types of sectional and industrial doors, with a focus on selecting door types that enhance occupant safety, support energy efficiency, and improve building design aesthetics for a healthier environment.

Learning Objective 2: Students will learn to specify upward-acting doors, prioritizing occupant health and safety by understanding how door selection impacts injury prevention, exhaust gas exposure, and energy conservation, while also enhancing natural light and aesthetic integration.

Learning Objective 3: Students will gain skills in assessing mounting conditions, headroom and side room requirements, and types of lifts and operators, with particular attention to how these considerations affect safety, mechanical reliability, and occupant welfare.

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.

This session will present how IoT lighting can be a fundamental platform for smart environments.  Well planned building integration allows a flexible, scalable lighting system to collect the data that ultimately brings more value to the building owner.

At the end of this course, participants will learn:

1. Define IDA, light pollution, and related terms
2. Identify the impacts of light pollution
3. Demonstrate the difference between IDA and non-IDA lighting
4. Assess the process of establishing IDA certification

This course will review the importance of acoustics in architecture, discuss the fundamental principles of sound management, explore how to design interior spaces to maximize occupants’ comfort, and review emerging tools to solve for both sound and lighting. It will also focus on the standards that govern acoustic requirements for diverse applications.