The pattern map evaluates a pattern on two key elements: structure and nature. This course explains why these two elements affect how we recognize and respond to patterns and examines ways to bridge architecture and nature by using architectural panel systems with patterned openings, and provide a sense of space, privacy, shade, or camouflage with cladding, screens, or railings.

HSW Justification: Architectural use of patterns plays a vital role in enhancing the Health, Safety, and Welfare (HSW) in of our built environments. Our mental well-being, for example, can be positively impacted through organic biophilic geometries that connect occupants to nature to positively affect mood and reduce stress, while geometric or crystalline patterns create the dynamic visual interest necessary for effective way-finding elements to prevent accidents and ensure safer navigation. Some patterns can also be visually transparent while others act as camouflage which can be an important consideration for surface treatment in circulation areas. From a macro perspective, patterns can promote inclusivity and community engagement, while enriching their overall user experience.

Learning Objective 1: Students will learn to compare patterns on a pattern map and explore how different geometries are perceived and processed in the mind of the user, how they contribute to issues affecting safety, and even encourage engagement in built environments.

Learning Objective 2: Students will learn to explain how different characteristics and application of a pattern’s functionality can impact on how we perceive visual space to improve safety and social interaction, as well as contribute to positive mental health.

Learning Objective 3: Students will learn the importance of selecting the most appropriate openness factor and base material for the given project objectives, for example, how to enhance natural light, improve air quality, and create a welcoming atmosphere in built environments.

Learning Objective 4: Students will learn how to apply HSW Best Practices to provide privacy, facade screening, camouflage, shade, or railings with architectural panels with patterned openings to best create a positive user experience.

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.

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Beauty, functionality, and wellness-enhancing can co-exist in design, with the right products. This article explores solutions that help architects achieve these important multi-benefits. Pavers that create beautiful outdoor spaces that are easy to maintain. Skylights that allow daylight and fresh air into the interior. Underlayment that improves acoustics and sound management, while protecting the integrity of the interior air quality. Each improves the functionality of the space and the wellness of the people in the built environment.

Program: Architecture, Design, and Building Science

The purpose of this presentation is to give you a clear understanding of the features and benefits of textured metals and discover how to best specify stainless steel and metal alloys in your projects. The first part of our talk will introduce the ecological and economic properties of textured stainless steel as well as educate you on the composition of metals and alloys. The second portion of this presentation will illustrate the process of texturing metals and their applications, as well as how to specify them. The session will also review projects that use textured metals - with beautiful results.

HSW Justification:
Most of this course is dedicated to explaining the aesthetic, ecological and economic advantages of textured metals. Most often, the metal used in stainless steel, which is very long-lived, valuable and 100 percent recyclable. The case studies focus on many beautiful installations that enhance the lives of occupants and visitors through the art and craftsmanship of the installations.

Learning Objective 1:
Students will understand ecological, economic, health and safety benefits of utilizing metals that can be deep textured.

Learning Objective 2:
Students will explore current applications that employ deep textured metals because of their ecological benefits, enhanced performance, and aesthetic attributes.

Learning Objective 3:
Students will learn compositions of metals that can be deep textured, how each performs under varying environmental constraints, and how to safely and economically specify deep textured metals.

Learning Objective 4:
Students will discover end user benefits of deep texturing metals, including performance enhancement, material usage reduction and longer product lifecycles.

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 is designed to teach the history of synthetic turf, its application in water and energy conservation, pollution abatement, sustainable design, and its versatility in numerous landscaping applications and designs. Participants will become knowledgeable about synthetic turf and innovative applications that could be applied to their residential and commercial projects. The most current technological advances in the industry and the positive role synthetic turf plays in the environment.

Learning Objective 1:
Students will gain an increased awareness of the positive environmental impact of synthetic turf on water use, reduced energy demand and reduction of use of fossil fuels, reduced chemical application, and resulting reduction of water and noise pollution.

Learning Objective 2:
Students will become more informed on the newest synthetic turf material technologies available, including the use of soy based materials, as well as how the proper application of infills and proper material selection can benefit the health and safety of athletes.

Learning Objective 3:
Students will be more knowledgeable about the history and evolution of the technology and of landscaping and sports applications using synthetic turf.

Learning Objective 4:
Students will better understand the versatility of synthetic turf and its many uses in sustainable landscape design.

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 provides fundamental information about Variable Refrigerant Flow (VRF) technology while overviewing three different application projects that feature the design flexibility, efficiency and owner benefits of specifying VRF systems.

This course will explore the requirements, challenges, and best practices for achieving the Circadian Lighting Design Feature L03 in the WELL Building Standard version 2.0.

HSW Justification:
The purpose of this feature in the WELL Building Standard is to provide building occupants with an appropriate exposure to the type of light that can maintain circadian health and align their circadian rhythm with the day-night cycle. The support of the circadian system has been shown to have tremendous health benefits to the people in the space.

Learning Objective 1:
Explain the relationship between spectral power distribution (SPD) and circadian lighting.

Learning Objective 2:
Summarize the circadian lighting feature requirements in the WELL Building Standard v2.

Learning Objective 3:
Describe a few best practices that can help architects to meet this challenging circadian lighting criteria.