This course will explore the cutting-edge union of design and technology by delving into parametric design and its symbiosis with digital fabrication, and how the vision is best achieved via vertically-integrated, technology-forward product manufacturers. We will also discuss strategies for effective collaboration with these manufacturers throughout the architectural design process.

Learning Objective 1: Students will learn about the use of parametric design in architecture, including its definition, history and current state.

Learning Objective 2: Students will learn about the marriage between parametric design and digital fabrication.

Learning Objective 3: Students will understand why vertical integration is an important operating model for product manufacturers looking to leverage parametric design.

Learning Objective 4: Students will understand how to partner with vertical manufacturers throughout the architectural design process and learn the advantages of this digital collaborative approach.

This course explores the impact of the COVID-19 pandemic on design and construction decisions, particularly focusing on operable glass walls in interior and exterior applications, primarily in the hospitality industry. Students will gain familiarity with terminology, capabilities, and uses of operable glass walls, with an emphasis on addressing health concerns post-pandemic through responsive design. The course highlights how operable glass walls contribute to improving the health, safety, and well-being of building occupants while also providing psychological benefits by creating comfortable environments. Practical design concepts applicable to various commercial projects will be covered, with direct access to manufacturer resources for further assistance.

Learning Objective 1: You will be able to identify and recognize the significance of the health concerns related to the COVID-19 pandemic as they relate to building design and product selection.

Learning Objective 2: You will learn how to assess the safety aspects of incorporating design and product selections that protect buildings, occupants, and owners from harm and damage, particularly in light of unexpected violence and vandalism.

Learning Objective 3: You will be able to explain the welfare aspects 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 4: You will be able to determine ways to incorporate the design principles as presented into different building types and applications.

This course recognizes the flush toilet as one of the biggest users of water and discusses how toilet design is pushing flush technology to develop ways for homes and commercial buildings to conserve water without sacrificing the performance of the toilet. Industry testing protocols and the water-saving capabilities of different technologies are evaluated. Today—as climate change, population growth, and record droughts present an unprecedented strain on our water supply—conservation technology is building awareness to the importance of having the most water-efficient fixtures in a home or business.

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.

As architects and clients alike demand the creation of what’s next, design teams rely on new product systems and solutions to help them push the boundaries of form and function. This article profiles a few solutions that enable architects to create distinct building envelopes that don’t sacrifice on the efficient performance or sustainable design considerations that also occupy prominent spots on almost every client’s wish list.

HSW Justification:
This article explores solutions that enable architects to deliver a desired aesthetic that also performs efficiently and offers sustainable design benefits. For example, thermal barriers in the aluminum framing that hold the glazing in place allows architects to complete historic renovation projects that exceed thermal performance targets, without compromising the integrity of the historical aesthetic. Composite metal panel systems that support very unique applications and creative demands from design teams can also offer top-tier performance in terms of fire-, water-, and impact-resistance. Extruded aluminum trim beautifully meshes different types of exterior cladding, while helping the envelope to better manage moisture.

Learning Objective 1:
Explain how incorporating thermal barriers into the aluminum framing in the fenestration of the Crosstown Concourse helped the project become the world’s largest LEED Platinum historic rehabilitation project, while maintaining the integrity of its historic aesthetic.

Learning Objective 2:
Specify a composite metal panel system that offers the resistance to fire, water, and impact best-suited to the needs of a particular project.

Learning Objective 3:
List the aesthetic and sustainability-related benefits of specifying extruded aluminum trim on an exterior cladding.

Learning Objective 4:
Describe how the different finishes of precast concrete used in the façade of the Ale Asylum were reverse engineered to perfectly match the concept originally pitched and accepted by the city.

 The class is a high-density orientation to lighting considerations and methods in the healthcare environment. Topics will include application situations, impacted populations, design methods, and a review and critique of examples of successful and less-than-successful healthcare lighting designs.

At the end of this course, participants will:

1. Identify current trends in the healthcare lighting design and the impact lighting has on its occupants and the environment. 
2. Identify who is impacted by our lighting design decisions and learn best practices on how to light the spaces they occupy.
3. Identify specific lighting needs of patient rooms.
4. Identify emerging lighting methods including design for circadian health.

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.

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

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.

Designing buildings for life safety and wellness is getting easier.