Architecture tells us a great deal about society. In fact, glass and glazing are used to blur the lines between inside and out, helping elevate performance and the experiences of people. Yet while humans can use environmental cues to identify glass as a barrier, there is growing realization that birds cannot. The solution is bird-friendly glass that delivers on performance, energy efficiency and the needs of people. This course from Guardian Glass is intended to provide the basis for a better understanding of how to recognize issues affecting the bird population while learning about best practices and design fundamentals for smarter, safer buildings.

This course aims to familiarize you with the terminology, capabilities, and applications of operable glass walls in both interior and exterior residential settings. You will learn how operable glass walls can enhance the health, safety, and welfare of residents. Additionally, we will share ideas that you can incorporate into your current projects.

Learning Objective 1: Students will be able to explain the welfare aspect of design and product selection that enable equitable access to all, can elevate the human experience with daylight and outdoor access, and benefit the environment through sustainable building design.

Learning Objective 2: Students will be able to assess the safety aspects of incorporating product selections that protect buildings and people from harm and damage, particularly considering unexpected violence or vandalism.

Learning Objective 3: Students will be able to identify and recognize the significance of ongoing health concerns related to residential design and product selection.

Learning Objective 4: Students will be able to determine ways to incorporate the design principles as presented in case study examples into single family building projects.

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.

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.

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

The building envelope has a lot of different jobs to do—from insulating the building so that it can be efficiently heated and cooled to providing air and water barriers that keep harmful moisture at bay, as well as providing the aesthetic face of the project. High performance building envelopes do all of those things extremely well. This article explores some of the latest high-performance solutions that can be used to create those high-performance envelopes.

HSW Justification:
A high-performance building envelope is necessary to create a building that is efficient and healthy. This article takes a look at how different components in the building envelope perform—giving architects the information they need to choose high-performance components that will produce a high-performing envelope.

Learning Objective 1:
Compare different types of continuous insulation in terms of the thermal performance they offer and the way they behave when exposed to water and fire.

Learning Objective 2:
Describe how insulated metal panels (IMPs) can be used on the envelope to improve building performance, create efficient and healthy interiors, and enhance design flexibility.

Learning Objective 3:
Explain how PET bottles can be upcycled into insulation creating a new product that contains recycled material and improves thermal performance of the building envelope.

Learning Objective 4:
Describe the ways that architectural metal wall systems enable architects to push the creative boundaries of their designs.

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

High rise fires are not new to us. In fact, we have seen an increase in fire incidents in Asia, Europe, and the Middle East in the last 5-10 years that have amplified awareness on fire safety performance of taller structures. High rise buildings present a greater risk with an increased number of occupants that have a limited means of escape in the event of a fire. That is why the time element for containing a fire is so critical. Also, as we have seen in actual fires, vertical fire spread at the exterior façade can rapidly overwhelm fire fighters means of interceding the fire from ground level. As the fire accelerates and upward spread progresses, it often reaches a height beyond the reach of fire services water streams. That is why containing a fire and preventing it from spreading vertically is so critical for both occupant and first responder safety.

Designing buildings for life safety and wellness is getting easier.