
Explore how smartphones and giants like Google, Apple, and Amazon shape consumer experience, information modeling as infrastructure, and political design choices to counter inflation in smart building contexts.
Explore the instructor’s global perspective on smart building technology, highlighting India and Africa, and show how programming, design, construction, and operations shape the field.
Explore the foundations of smart building technology, focusing on the technology component, finance platforms, and the role of data in intelligent systems.
Explore the essentials of smart building technology, examine design and construction operation, and discuss reliable smart solutions and their future impact.
Explore how the architecture, engineering, and construction sector confronts friction and tradition, and trace three major points in its history shaping tech adoption.
Explore how a smart home is defined as an intelligence product, holistically designed and prefabricated, integrating technology and context to optimize lifecycle costs and facilities information management.
Explore the essential components of a smart home, including structural framework, integrated technologies, security systems, and energy efficiency strategies, and how they enable unified, efficient building management.
Explore how present day smart homes pursue holistic hardware and software integration toward a unified system and rigid operating system, highlighting Google and Apple among industry players and practical solutions.
Explore innovations to smart homes by examining unified hardware systems, light switch use, and the role of information exchange within a closed, sustainable building technology framework.
Explore how smart building technology supports living smarter by focusing on energy consumption, efficiency, and the human factors involved in component assembly for smart homes.
Explore smartphone-based smart home solutions and examine the role of smartphones, data, and social networks in home technology. Understand how cost structures influence adoption and accessibility.
Explore how smart surveillance technology and data-driven security systems shape the future of homes and civil society, with regulatory steps and government data use shaping the cultural impact.
Abstract discusses how a remarkable technology affects systems and involves government officials and judges. It notes litigations and the courts, and describes changes in their system as the source evolves.
Discover how information technology shapes planning teams, feedback systems, and data-driven processes in smart building technology, with updates to content and design workflows.
Analyze how smart-building devices connect via layered networks guided by the OSI reference model, integrating back-end systems and secure controls across disparate components.
Explore the physical layer of smart building technology, examining how devices form a system, travel through the internet, and address cost, awareness, and impact.
Analyze how communication protocols manage signal exchange in smart building systems, addressing governance, political debates, and the role of smart meters in infrastructure.
Explore how the database underpins a fast-moving network of smart building devices, revealing the role of systems and the evolving cost structure behind these capabilities.
Examine how architecture concepts and social processes shape smart building design. Analyze symbolism, class dynamics, and the emotional and concrete foundations described in the lecture.
Explore how political discourse, budgeting decisions, and civil litigation shape smart building delivery and governance, highlighting policy implications and the role of corporate soft skills.
Explore space management systems and optimization strategies for building operations, including setting up and optimizing space, and addressing practical challenges in capacity and layout.
The abstract discusses database openness, law, and access concepts like doors and windows in smart building technology, and examines distribution metrics.
Explore the complexities of smart building technology through an introductory session examining training, industry perspectives, and the role of efficient collaboration across telecom, construction, and customer domains.
Explore the substructure of smart building technology and its role in shaping investments and responses to outside environments.
Explore the real estate, policy, and financing considerations that shape smart building technology deployments, including governance, funding, and project presentation.
Examine the horizontal elements in smart building technology, highlighting how signals, services, and system observations relate to disability services and city budget debates.
Explore the openings in smart building technology, focusing on ventilation and sensor-based environment data collection. Learn how these sensors integrate with building systems to monitor the environment.
Discover transport components in smart building technology, emphasizing structure and functional elements, how hidden equipment and parts can be assembled, and how this integrates within the wider ecosystem and controls.
Explore the utility spaces in smart buildings, focusing on distributing services and assets, managing devices and alarms, and integrating data from a data warehouse for unified operation.
Explore the aesthetic expression, ethics, and regulatory enforcement, including justice movements, within the smart building technology context.
Explore smart building technology components, including energy and power management, heating and air conditioning, and lighting, entertainment and security systems with access control, and integrated communication, management, and lifestyle services.
Explore how smart buildings integrate Internet of Things devices and automated systems through holistic security and unified data architectures. Understand bespoke, user-driven design and closed systems integration to avoid stovepipes.
Explore how energy and comfort systems regulate heating, ventilation, and air conditioning to optimize energy use in smart buildings. Discover how sensors and daylighting enable automatic efficiency and monitoring.
Explore home entertainment systems in smart buildings, including home cinema, gaming solutions, and VR, and how smartphones and devices act as hubs for audio–video distribution.
Explore how smart building security combines physical and cyber measures, from access control with biometric authentication and fire alarm monitoring to firewall protections and surveillance networks.
Explore how smart building communication systems in commercial facilities integrate digital signage, IP telephony, and conference capabilities to connect users, devices, and networks through text and video over IP.
Explore how smart building technology integrates management and utility systems through a unified dashboard, linking asset management, healthcare facilities, and enterprise operations with mobile assistance to monitor activities.
Explore lifestyle systems in smart buildings: smartphones enable social connection and AI-driven personalization through intuitive interfaces, while encryption, privacy, and BYOD considerations protect health data and integrated video monitoring.
Explore how standalone control systems can be exploited and why a holistic, unified operating system with a unified user interface and automated application system enables cohesive smart building control.
Explore how infrastructure and system design intersect with smart building technology. Assess hardware solutions, service delivery, and the role of money, politics, and groups in infrastructure and systems.
Explore how smart building technology intersects with construction, sharing knowledge about industry initiatives, final products, and professional quality while highlighting online resources and trends in the field.
Explore the basics of smart building technology, including hardware, design, construction, and fabrication, wireless devices, and openness, and discuss costs and possibilities of smart lifestyle assistance.
Examine how smart building technology supports defense and security, analyzing signals, secure infrastructure, and global IP considerations within a broader system.
Analyze how DC electricity and solar power concepts intersect with smart building technology, using data-driven insights to reduce wastage and explore the economic drivers of modern urban energy systems.
This lecture examines how evolving systems, from early times to smartphones, influence visibility, access, and market dynamics, highlighting school choice, location, and performance challenges.
Understand data-as-a-service for smart buildings, focusing on cloud-based functions, cost effectiveness, and quality control of building systems.
Explore a next-gen value chain in smart building technology, using a unified, collaborative approach to design and delivery driven by data and supply chain collaboration.
explore how smart devices and smartphones intersect with discourse, security, and infrastructure policy, balancing civil liberties with delivery process and funding considerations.
Explore the planning and design processes, the subsystem and sponsorship application workflow, and how site conditions and environments influence smart building decisions in part two of the series.
Explore the vital process for smartphones and tough team dynamics as they discuss client challenges. The caption notes a six-month timeline, a lawsuit, and a plant shutdown for saving.
Explore how integrated projects unite people, systems, and practices across the building lifecycle, with early, collaborative planning to drive efficiency and client value.
Assemble an integrated team early to boost collaboration among architects, engineers, buyers, and suppliers. Use digital information modelling to manage project risk and keep the design coherent.
Plan and align project goals with schools and programs, assign committee duties, and satisfy clients through design, procurement, and on-site management for village projects and wind energy resources.
Learn to document processes and their life cycles, assign responsible parties, and drive the transformation of information through process maps.
Explore the global planning process model and emissions considerations, identify responsible parties, and develop information-exchange structures to support pollution governance and policy decisions.
Explore how to design a robust support infrastructure for smart building technology by establishing the structure and processes, managing security credentials, data, and reporting across mobile and online systems.
Explore the bim plan and how information exchange, responsibilities, and standards drive cross-party collaboration and improve decision-making.
Outline the facility program as a holistic plan of improvement, detailing social, political, and behavioral strategies to achieve desired conditions and outcomes.
Examine the planning process for firms, applying big block issues, and how independent analysis informs mission design and outcomes across coastal and Atlantic contexts.
Explore conceptual design, feedback loops, and efficiency in smart building planning, addressing how professionals collaborate to optimize public spaces and livability.
The coordination checklist guides collaborative problem solving across the building life cycle, emphasizing reporting, responsible parties, due process, and ensuring quality and accuracy in official building projects.
Explore the planning process behind specification documentation within a coalition framework, focusing on organizing group roles and privacy considerations.
Analyze the BIM deliverable within smart building technology by examining the design process, design analysis, and how publication and provocation influence functional design outcomes.
Explore experience design for balance between simplicity and the complex design to craft compelling user experiences. Analyze human interactions, market obstacles, adoption requirements, and how lifestyle considerations shape design choices.
Examine how design choices in smart building projects drive energy assumptions, cost implications, and mechanical properties, analyzed through legal and official analyses to inform upgrade decisions.
Explore how the BIM model unifies data across architecture, engineering, and construction to boost collaboration, streamline information sharing, reduce risks, and accelerate digital transformation in smart building projects.
Analyze how support documents and policy discussions influence decision making in smart building contexts, including rules, polling data, quotes, and service standards shaping reviews and outcomes.
How best to tell the story of Smart Buildings than through the most familiar of building typologies?
We all cherish our home experience. But how do we make our homes an integral part of our Jetson Lifestyle?
The first part of the course explored the possibilities with Smart Buildings. Lots of innovations were uncovered, leveraging the Foundational Framework of Smart Building Technology. Stories that reshaped history were told...
Beyond the possibilities with Smart Building Technology, it takes a collaborative and innovative delivery vehicle - that is the focus of the second part of the course. Lots of digital transformation and trends were explored interactively.
The third part of the course put the first two parts into the application. It started by exploring the peculiarities of Smart Home delivery in African Cities. It ended by offering a business perspective to Smart Home delivery.