Neuroarchitecture 101
Neuroarchitecture is a design discipline that seeks to incorporate neuroscience into design to augment the built environment’s positive influence on the emotional and physical health of people.
...Read MoreThis 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.
Neuroarchitecture is a design discipline that seeks to incorporate neuroscience into design to augment the built environment’s positive influence on the emotional and physical health of people.
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Program: Architecture, Design and Building Science
This course explores a few of the many ways that interiors impact the health and well-being of the people inside them. From restrooms being designed to reduce contact with contaminated surfaces and inhibit the presence of bacteria, to acoustics solutions that absorb or isolate noise, making interiors more comfortable and productive. Biophilic design, a health-focused design concept that encourages the inclusion of plants, daylight, and natural elements like wood and stone, is also discussed, as are the options designers have for bringing stone elements inside.
...Read MoreAs 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.
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.
...Read MoreThis 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.
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.
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.
...Read MoreDynamic 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:
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.
...Read MoreBeauty, 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.
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