Air conditioning cools by removing heat and humidity, while climate control offers precise temperature and humidity control. For straightforward cooling, choose air conditioning. For a more tailored indoor climate solution, opt for climate control.
This document discusses ways to achieve thermal comfort through building design, construction, and maintenance. It explains that thermal comfort is influenced by factors like air temperature, humidity, air speed, clothing, and activity level. Building codes aim to minimize discomfort rather than eliminate it, as different people experience comfort differently. Thermal comfort can be measured using the predicted mean vote (PMV) scale of -3 to +3. Guidelines recommend keeping the PMV between -0.5 and +0.5. The document then provides recommendations for achieving thermal comfort, including using HVAC to regulate mean radiant temperature, minimizing air leakage, allowing some occupant control, and maintaining and adjusting the thermal environment over time.
BUILDING-SERVICE-HVAC//.. building servicesojjeswigautam
building service notes, architectural notes of building service. here are the notes of building service including water supply, electricity service and mechanical service.
1) HVAC involves heating, ventilation, and air conditioning to control temperature, humidity, air quality, and circulation for human comfort.
2) The main HVAC processes are heating, cooling, humidifying, dehumidifying, cleaning, ventilating, and air movement.
3) Proper HVAC design requires considering factors like building design, occupancy, location, and architectural constraints to effectively condition indoor spaces.
The document discusses mechanical and electrical services in buildings. It describes mechanical systems, electrical systems, and building services systems. Mechanical systems include HVAC systems, which control temperature, humidity, ventilation, and air quality in buildings. Building services engineers design, plan, and monitor installations to ensure efficient and sustainable building operations. Their work involves planning, design, construction, energy management, technical building management, and consulting. HVAC systems can range from simple heating stoves to complex air conditioning for spaces like submarines. Modern HVAC requires considering issues beyond comfort like indoor air quality, emissions, and energy conservation.
Willis Carrier invented the modern air conditioning system in 1902 to address industrial challenges around temperature and humidity control. His system used a refrigeration cycle involving compressors, condensers, evaporators, and fans to circulate and cool air, controlling both temperature and moisture levels. Carrier's invention revolutionized indoor comfort and improved productivity, preservation of goods, health, and architectural freedom through precise climate control in various environments like factories, offices, homes, and transportation.
The document discusses the key differences between HVAC (heating, ventilation, and air conditioning) systems and AC (air conditioning) units. HVAC systems provide both heating and cooling for entire buildings through components like furnaces and ductwork, while AC units only cool individual rooms. HVAC systems are more comprehensive but also more expensive than AC units, which are best for cooling single spaces. Factors like climate, space needs, budget, and long-term plans should be considered to determine whether an HVAC or AC solution is most suitable.
2. The document outlines various factors that influence human thermal comfort, including physical conditions like temperature, humidity, air movement, and radiant sources, as well as physiological conditions like sex, age, health, and activity level. It provides recommendations for
The document discusses thermal comfort and the factors that affect it. Thermal comfort is defined as the condition of satisfaction with one's thermal environment and is influenced by factors like air temperature, humidity, air movement, clothing, activity level, and radiant temperature. Maintaining thermal comfort is important for productivity, health, and reducing sick building syndrome symptoms. Adaptive models allow for more flexible and energy-efficient building designs that can still provide thermal comfort.
This document discusses ways to achieve thermal comfort through building design, construction, and maintenance. It explains that thermal comfort is influenced by factors like air temperature, humidity, air speed, clothing, and activity level. Building codes aim to minimize discomfort rather than eliminate it, as different people experience comfort differently. Thermal comfort can be measured using the predicted mean vote (PMV) scale of -3 to +3. Guidelines recommend keeping the PMV between -0.5 and +0.5. The document then provides recommendations for achieving thermal comfort, including using HVAC to regulate mean radiant temperature, minimizing air leakage, allowing some occupant control, and maintaining and adjusting the thermal environment over time.
BUILDING-SERVICE-HVAC//.. building servicesojjeswigautam
building service notes, architectural notes of building service. here are the notes of building service including water supply, electricity service and mechanical service.
1) HVAC involves heating, ventilation, and air conditioning to control temperature, humidity, air quality, and circulation for human comfort.
2) The main HVAC processes are heating, cooling, humidifying, dehumidifying, cleaning, ventilating, and air movement.
3) Proper HVAC design requires considering factors like building design, occupancy, location, and architectural constraints to effectively condition indoor spaces.
The document discusses mechanical and electrical services in buildings. It describes mechanical systems, electrical systems, and building services systems. Mechanical systems include HVAC systems, which control temperature, humidity, ventilation, and air quality in buildings. Building services engineers design, plan, and monitor installations to ensure efficient and sustainable building operations. Their work involves planning, design, construction, energy management, technical building management, and consulting. HVAC systems can range from simple heating stoves to complex air conditioning for spaces like submarines. Modern HVAC requires considering issues beyond comfort like indoor air quality, emissions, and energy conservation.
Willis Carrier invented the modern air conditioning system in 1902 to address industrial challenges around temperature and humidity control. His system used a refrigeration cycle involving compressors, condensers, evaporators, and fans to circulate and cool air, controlling both temperature and moisture levels. Carrier's invention revolutionized indoor comfort and improved productivity, preservation of goods, health, and architectural freedom through precise climate control in various environments like factories, offices, homes, and transportation.
The document discusses the key differences between HVAC (heating, ventilation, and air conditioning) systems and AC (air conditioning) units. HVAC systems provide both heating and cooling for entire buildings through components like furnaces and ductwork, while AC units only cool individual rooms. HVAC systems are more comprehensive but also more expensive than AC units, which are best for cooling single spaces. Factors like climate, space needs, budget, and long-term plans should be considered to determine whether an HVAC or AC solution is most suitable.
2. The document outlines various factors that influence human thermal comfort, including physical conditions like temperature, humidity, air movement, and radiant sources, as well as physiological conditions like sex, age, health, and activity level. It provides recommendations for
The document discusses thermal comfort and the factors that affect it. Thermal comfort is defined as the condition of satisfaction with one's thermal environment and is influenced by factors like air temperature, humidity, air movement, clothing, activity level, and radiant temperature. Maintaining thermal comfort is important for productivity, health, and reducing sick building syndrome symptoms. Adaptive models allow for more flexible and energy-efficient building designs that can still provide thermal comfort.
Air Coolers vs Air Conditioners Which is More Efficient and Cost EffectiveSymphony Limited
When comparing air coolers and air conditioners, their efficiency and cost-effectiveness vary based on specific factors. Air coolers, also known as evaporative coolers, use the natural process of evaporation to cool the air. They are generally more energy-efficient and cost-effective than air conditioners. Air coolers consume less electricity and are suitable for dry climates, where they can provide a cooling effect while adding moisture to the air. On the other hand, air conditioners use refrigeration technology to cool the air and can maintain lower temperatures. However, they consume more electricity and are more effective in humid climates.
This document provides information about window air conditioners, including their parts, working principles, advantages, and classification of air conditioners more broadly. It describes the key components of a window AC unit, including the refrigeration system (compressor, condenser, expansion valve, evaporator), air circulation system (blower, fans), and control system. It explains the two air cycles in a window AC: the room air cycle where hot room air is filtered, cooled by the evaporator, and blown into the room, and the hot air cycle where heat is transferred from the condenser to the outside air. Window ACs are classified as unitary or packed systems that are convenient and inexpensive but use more energy than other options.
This document discusses thermal comfort and factors that affect it. Thermal comfort is defined as a psychological state of satisfaction with one's thermal environment. It is affected by environmental factors like air temperature, humidity, air speed, and radiant heat as well as personal factors like activity level and clothing. Proper ventilation and control of temperature, humidity, and air speed are needed to maintain thermal comfort. The building envelope and mechanical systems work together to provide thermal comfort by minimizing heat transfer and maintaining a balance between heat production and heat loss in the body.
Thermal comfort is affected by multiple factors including air temperature, humidity, air velocity, clothing, activity level, and individual physiology. Two main models of thermal comfort are the static model, which advocates for a single constant temperature, and the adaptive model, which recognizes humans can adapt to different temperatures seasonally. Research on thermal comfort considers human physiology, develops standards and indices, and applies to various contexts like buildings, regions, and livestock to help optimize thermal environments.
This document provides information on environmental control systems and thermal comfort in buildings. It discusses criteria for thermal control, including passive techniques like natural ventilation and solar shading, and active techniques using HVAC systems. Thermal comfort is influenced by personal factors like activity level and clothing, as well as environmental factors like air temperature, radiant temperature, air velocity and humidity. The document also covers climatic zones in Pakistan and climatic data used for building design, including orientation and layout considerations.
Ventilation is the intentional movement of air into and out of a building. It provides acceptable indoor air quality by removing odors and delivering fresh air either naturally through forces like wind and stack effect, or mechanically. Standards for ventilation are based on factors like floor area, cubic footage of air per person, and recommended air changes per hour. Proper ventilation is important for thermal comfort, indoor air quality, and health.
THERMAL & AIRFLOW VARIABILITY
Incorporation of airflow and thermal conditions into materials, daylighting, mechanical
ventilation and/or fenestration will help distribute variability over space and time.
● Thermal comfort is a vital bridging component between biophilic design and sustainable
design, especially in the face of climate change and rising energy costs. When Thermal
and Airflow Variability is implemented in a way that broadens people's perception of
thermal comfort, it may also help reduce energy demands for air conditioning and heating.
●●
Designing in features that allow users to easily adapt and modify their perceived thermal
conditions of their environment will increase the range of acceptable temperatures by two
degrees Celsius above and below the conventional parameters for thermal comfort (Nicol
and Humphreys, 2002).
● Coordination of design strategies among a project team (e.g., architect, lighting designer
and MEP engineers) as early as the schematic design process will be particularly
important for achieving design intent
This document provides an overview of HVAC systems, including their goals of providing thermal comfort and indoor air quality. It describes the main components and functions of heating, ventilation, and different air conditioning systems. Specifically, it outlines direct expansion (DX) systems, chiller systems, and cooling tower systems for air conditioning. It also discusses air handling units and provides a table comparing the key differences between DX, chiller, and cooling tower systems.
THERMAL COMFORT IN BUILT ENVIRONMENT.pptxsanchitasahu2
Thermal comfort in a built environment is when people using a building don't feel too hot or too cold. It takes into account environmental, work-related, and personal factors
What Are the Differences Between AC and HVAC?TomBrooks39
AC and HVAC almost similar in their works. But they have some differences in their mechanism. Learn about their differences and get to know which one to use for your work.
Learn why HVAC system maintenance is crucial for Cayman construction companies. Explore expert tips and services to ensure your HVAC systems operate efficiently, reducing downtime and saving money.
Beating the Heat Pick Your Perfect AC.pptxleelindesy
When summer's heat becomes relentless, stepping into a cool, air-conditioned space feels like a refreshing oasis. Whether you're at home, work, or on the move, having the right air conditioner can make all the difference in staying comfortable.
HVAC systems have three main functions - heating, ventilation, and air conditioning. They work to provide thermal comfort and indoor air quality. HVAC systems use the principles of thermodynamics, fluid mechanics, and heat transfer to achieve this. They are used in both residential and commercial buildings to control temperature, humidity, and air quality. Common components of HVAC systems include a central heating unit, ventilation to exchange air, and air conditioning using a refrigeration cycle to cool indoor air.
Choosing between a heat pump and an air conditioner? Both cool spaces, but a heat pump also provides heating functionality. Ideal for milder climates, a heat pump efficiently regulates temperatures year-round. On the other hand, an air conditioner is designed solely for cooling. Consider your climate and heating needs to make an informed decision on the most suitable system for your requirements.
What is meant by “Airconditioning”?
Human Comfort
Why do we need A.C.?
Advantages and Disadvantage of A.C.
Ideal room temperature
some terminology-
Dry-bulb temperature
Wet-bulb temperature:
Dew point
Latent heat
Absolute humidity
Relative humidity
Specific humidity
Sensible heat
Evaporating Cooling
Condensation
Enthalpy
Entropy
7. Classification of air conditioners
8. Windows AC- advantages
Parts of the Window Air Conditioners
Working
The refrigeration system,
Air circulation system-room air cycle and
The hot air cycle.
Ventilation system,
Control system,
electrical protection system.
9.Split or Ductless AC-
Advantages, parts indoor and outdoor,
Types-
Wall mounted
Floor mounted/Tower AC
Ceiling mounted/Cassette AC
Multi Split ACs
10. Central Air Conditioning System
Advantages and disadvantages
11. Key differences between "Window", "Split" and a "cassette" air conditioners.
12. Cooling capacity
13. Energy Efficiency
14.Energy Consumption
15.Energy Efficiency Ratio
16.Energy Saving Methods
17.Some AC brands
The document discusses air conditioning, including its definition, purpose of controlling human comfort factors, and need for mechanical cooling. It then covers various air conditioning terminology like dry bulb temperature, wet bulb temperature, dew point, latent heat, humidity measures, and heat types. The document classifies air conditioners and describes the main parts and working of window air conditioners and split/ductless air conditioners. It discusses cooling capacity, energy efficiency, and energy saving methods for air conditioners.
Introduction to hvac system, types of efficient hvac system and how it works. design recommendation for installation of hvac. air handling unit concept. case study.
The document discusses various methods of ventilation in buildings, including natural ventilation, mechanical ventilation, and hybrid/mixed-mode ventilation. Natural ventilation uses wind and temperature differences to move fresh air through buildings without mechanical fans. Mechanical ventilation uses fans to force air through ducts. Hybrid ventilation combines natural and mechanical methods. The document also describes specific ventilation system types like task ventilation, constant air volume, and variable air volume systems. It discusses the importance of ventilation for occupant health and comfort.
HVAC systems are essential for enhancing indoor air quality (IAQ) by utilizing filtration, ventilation, humidity control, air purification, and temperature control. By incorporating advanced technologies and regular maintenance, HVAC systems can significantly improve IAQ, promoting healthier indoor environments and overall well-being.
Why is Equipment Maintenance Important.pdfTomBrooks39
In the fast-paced world of industries, the heartbeat of any operation lies in well-maintained equipment. Let's delve into why equipment maintenance is crucial, unraveling the layers of benefits that come with it. Ever wondered why your car needs regular check-ups? It's the same principle that applies to the complex machinery driving industries. Equipment maintenance is about keeping things running smoothly, preventing unexpected breakdowns, and saving you from hefty repair bills.
Do Heat Pumps Work with Radiators Exploring Efficient Heating Solutions.pdfTomBrooks39
These nifty devices draw warmth from the air, even in chilly conditions. Imagine having a reliable heat source that doesn't rely on burning fuels – that's the magic of air source heat pumps! They're efficient and eco-friendly, making them a popular choice for many homeowners.
Air Coolers vs Air Conditioners Which is More Efficient and Cost EffectiveSymphony Limited
When comparing air coolers and air conditioners, their efficiency and cost-effectiveness vary based on specific factors. Air coolers, also known as evaporative coolers, use the natural process of evaporation to cool the air. They are generally more energy-efficient and cost-effective than air conditioners. Air coolers consume less electricity and are suitable for dry climates, where they can provide a cooling effect while adding moisture to the air. On the other hand, air conditioners use refrigeration technology to cool the air and can maintain lower temperatures. However, they consume more electricity and are more effective in humid climates.
This document provides information about window air conditioners, including their parts, working principles, advantages, and classification of air conditioners more broadly. It describes the key components of a window AC unit, including the refrigeration system (compressor, condenser, expansion valve, evaporator), air circulation system (blower, fans), and control system. It explains the two air cycles in a window AC: the room air cycle where hot room air is filtered, cooled by the evaporator, and blown into the room, and the hot air cycle where heat is transferred from the condenser to the outside air. Window ACs are classified as unitary or packed systems that are convenient and inexpensive but use more energy than other options.
This document discusses thermal comfort and factors that affect it. Thermal comfort is defined as a psychological state of satisfaction with one's thermal environment. It is affected by environmental factors like air temperature, humidity, air speed, and radiant heat as well as personal factors like activity level and clothing. Proper ventilation and control of temperature, humidity, and air speed are needed to maintain thermal comfort. The building envelope and mechanical systems work together to provide thermal comfort by minimizing heat transfer and maintaining a balance between heat production and heat loss in the body.
Thermal comfort is affected by multiple factors including air temperature, humidity, air velocity, clothing, activity level, and individual physiology. Two main models of thermal comfort are the static model, which advocates for a single constant temperature, and the adaptive model, which recognizes humans can adapt to different temperatures seasonally. Research on thermal comfort considers human physiology, develops standards and indices, and applies to various contexts like buildings, regions, and livestock to help optimize thermal environments.
This document provides information on environmental control systems and thermal comfort in buildings. It discusses criteria for thermal control, including passive techniques like natural ventilation and solar shading, and active techniques using HVAC systems. Thermal comfort is influenced by personal factors like activity level and clothing, as well as environmental factors like air temperature, radiant temperature, air velocity and humidity. The document also covers climatic zones in Pakistan and climatic data used for building design, including orientation and layout considerations.
Ventilation is the intentional movement of air into and out of a building. It provides acceptable indoor air quality by removing odors and delivering fresh air either naturally through forces like wind and stack effect, or mechanically. Standards for ventilation are based on factors like floor area, cubic footage of air per person, and recommended air changes per hour. Proper ventilation is important for thermal comfort, indoor air quality, and health.
THERMAL & AIRFLOW VARIABILITY
Incorporation of airflow and thermal conditions into materials, daylighting, mechanical
ventilation and/or fenestration will help distribute variability over space and time.
● Thermal comfort is a vital bridging component between biophilic design and sustainable
design, especially in the face of climate change and rising energy costs. When Thermal
and Airflow Variability is implemented in a way that broadens people's perception of
thermal comfort, it may also help reduce energy demands for air conditioning and heating.
●●
Designing in features that allow users to easily adapt and modify their perceived thermal
conditions of their environment will increase the range of acceptable temperatures by two
degrees Celsius above and below the conventional parameters for thermal comfort (Nicol
and Humphreys, 2002).
● Coordination of design strategies among a project team (e.g., architect, lighting designer
and MEP engineers) as early as the schematic design process will be particularly
important for achieving design intent
This document provides an overview of HVAC systems, including their goals of providing thermal comfort and indoor air quality. It describes the main components and functions of heating, ventilation, and different air conditioning systems. Specifically, it outlines direct expansion (DX) systems, chiller systems, and cooling tower systems for air conditioning. It also discusses air handling units and provides a table comparing the key differences between DX, chiller, and cooling tower systems.
THERMAL COMFORT IN BUILT ENVIRONMENT.pptxsanchitasahu2
Thermal comfort in a built environment is when people using a building don't feel too hot or too cold. It takes into account environmental, work-related, and personal factors
What Are the Differences Between AC and HVAC?TomBrooks39
AC and HVAC almost similar in their works. But they have some differences in their mechanism. Learn about their differences and get to know which one to use for your work.
Learn why HVAC system maintenance is crucial for Cayman construction companies. Explore expert tips and services to ensure your HVAC systems operate efficiently, reducing downtime and saving money.
Beating the Heat Pick Your Perfect AC.pptxleelindesy
When summer's heat becomes relentless, stepping into a cool, air-conditioned space feels like a refreshing oasis. Whether you're at home, work, or on the move, having the right air conditioner can make all the difference in staying comfortable.
HVAC systems have three main functions - heating, ventilation, and air conditioning. They work to provide thermal comfort and indoor air quality. HVAC systems use the principles of thermodynamics, fluid mechanics, and heat transfer to achieve this. They are used in both residential and commercial buildings to control temperature, humidity, and air quality. Common components of HVAC systems include a central heating unit, ventilation to exchange air, and air conditioning using a refrigeration cycle to cool indoor air.
Choosing between a heat pump and an air conditioner? Both cool spaces, but a heat pump also provides heating functionality. Ideal for milder climates, a heat pump efficiently regulates temperatures year-round. On the other hand, an air conditioner is designed solely for cooling. Consider your climate and heating needs to make an informed decision on the most suitable system for your requirements.
What is meant by “Airconditioning”?
Human Comfort
Why do we need A.C.?
Advantages and Disadvantage of A.C.
Ideal room temperature
some terminology-
Dry-bulb temperature
Wet-bulb temperature:
Dew point
Latent heat
Absolute humidity
Relative humidity
Specific humidity
Sensible heat
Evaporating Cooling
Condensation
Enthalpy
Entropy
7. Classification of air conditioners
8. Windows AC- advantages
Parts of the Window Air Conditioners
Working
The refrigeration system,
Air circulation system-room air cycle and
The hot air cycle.
Ventilation system,
Control system,
electrical protection system.
9.Split or Ductless AC-
Advantages, parts indoor and outdoor,
Types-
Wall mounted
Floor mounted/Tower AC
Ceiling mounted/Cassette AC
Multi Split ACs
10. Central Air Conditioning System
Advantages and disadvantages
11. Key differences between "Window", "Split" and a "cassette" air conditioners.
12. Cooling capacity
13. Energy Efficiency
14.Energy Consumption
15.Energy Efficiency Ratio
16.Energy Saving Methods
17.Some AC brands
The document discusses air conditioning, including its definition, purpose of controlling human comfort factors, and need for mechanical cooling. It then covers various air conditioning terminology like dry bulb temperature, wet bulb temperature, dew point, latent heat, humidity measures, and heat types. The document classifies air conditioners and describes the main parts and working of window air conditioners and split/ductless air conditioners. It discusses cooling capacity, energy efficiency, and energy saving methods for air conditioners.
Introduction to hvac system, types of efficient hvac system and how it works. design recommendation for installation of hvac. air handling unit concept. case study.
The document discusses various methods of ventilation in buildings, including natural ventilation, mechanical ventilation, and hybrid/mixed-mode ventilation. Natural ventilation uses wind and temperature differences to move fresh air through buildings without mechanical fans. Mechanical ventilation uses fans to force air through ducts. Hybrid ventilation combines natural and mechanical methods. The document also describes specific ventilation system types like task ventilation, constant air volume, and variable air volume systems. It discusses the importance of ventilation for occupant health and comfort.
HVAC systems are essential for enhancing indoor air quality (IAQ) by utilizing filtration, ventilation, humidity control, air purification, and temperature control. By incorporating advanced technologies and regular maintenance, HVAC systems can significantly improve IAQ, promoting healthier indoor environments and overall well-being.
Similar to Air Conditioning VS Climate Control (20)
Why is Equipment Maintenance Important.pdfTomBrooks39
In the fast-paced world of industries, the heartbeat of any operation lies in well-maintained equipment. Let's delve into why equipment maintenance is crucial, unraveling the layers of benefits that come with it. Ever wondered why your car needs regular check-ups? It's the same principle that applies to the complex machinery driving industries. Equipment maintenance is about keeping things running smoothly, preventing unexpected breakdowns, and saving you from hefty repair bills.
Do Heat Pumps Work with Radiators Exploring Efficient Heating Solutions.pdfTomBrooks39
These nifty devices draw warmth from the air, even in chilly conditions. Imagine having a reliable heat source that doesn't rely on burning fuels – that's the magic of air source heat pumps! They're efficient and eco-friendly, making them a popular choice for many homeowners.
Do you Need Planning Permission for Air ConditioningTomBrooks39
Curious about planning permission for air conditioning? In many cases, residential installations may not require it, but regulations vary. Commercial installations might have different requirements. Check local guidelines or consult professionals for specific insights tailored to your situation.
The Greatest Guide to Air Conditioning Unit Fitted.pdfTomBrooks39
Experience year-round comfort with an 'air conditioning unit fitted' precisely to your needs. Stay cool during scorching summers and cozy in winter's chill. Enjoy improved indoor air quality, energy efficiency, and peace of mind with a professionally installed unit. Make your space the ultimate oasis of comfort and well-being.
A heat pump system is an HVAC system that can provide both heating and cooling by transferring heat from one place to another using refrigeration technology. It consists of an outdoor unit that contains a compressor, a fan, and a coil, as well as an indoor unit that contains a fan and a coil. In the winter, it extracts heat from the outdoor air and transfers it indoors to heat the space, while in the summer, it extracts heat from the indoor air and transfers it outdoors to cool the space. Heat pumps are known for their energy efficiency and versatility, making them a popular choice among homeowners.
An air conditioner works by using a refrigeration cycle that transfers heat from indoor air to the outdoors. It has four main components: compressor, condenser, expansion valve, and evaporator. The compressor compresses the refrigerant gas, which increases its temperature and pressure. The hot gas is then pumped into the condenser, where it releases heat and condenses into a liquid. The liquid refrigerant then flows through the expansion valve, where it expands and turns into a cold gas. The cold gas is then pumped into the evaporator, where it absorbs heat from the indoor air. The process repeats itself until the desired indoor temperature is reached.
Heat pumps are cost-efficient, environment-friendly and easy to carry. Heat pump supplies hot and cold air inside an indoor space whenever needed maintaining the perfect temperature during both summer and winter.
Ocean lotus Threat actors project by John Sitima 2024 (1).pptxSitimaJohn
Ocean Lotus cyber threat actors represent a sophisticated, persistent, and politically motivated group that poses a significant risk to organizations and individuals in the Southeast Asian region. Their continuous evolution and adaptability underscore the need for robust cybersecurity measures and international cooperation to identify and mitigate the threats posed by such advanced persistent threat groups.
Fueling AI with Great Data with Airbyte WebinarZilliz
This talk will focus on how to collect data from a variety of sources, leveraging this data for RAG and other GenAI use cases, and finally charting your course to productionalization.
Monitoring and Managing Anomaly Detection on OpenShift.pdfTosin Akinosho
Monitoring and Managing Anomaly Detection on OpenShift
Overview
Dive into the world of anomaly detection on edge devices with our comprehensive hands-on tutorial. This SlideShare presentation will guide you through the entire process, from data collection and model training to edge deployment and real-time monitoring. Perfect for those looking to implement robust anomaly detection systems on resource-constrained IoT/edge devices.
Key Topics Covered
1. Introduction to Anomaly Detection
- Understand the fundamentals of anomaly detection and its importance in identifying unusual behavior or failures in systems.
2. Understanding Edge (IoT)
- Learn about edge computing and IoT, and how they enable real-time data processing and decision-making at the source.
3. What is ArgoCD?
- Discover ArgoCD, a declarative, GitOps continuous delivery tool for Kubernetes, and its role in deploying applications on edge devices.
4. Deployment Using ArgoCD for Edge Devices
- Step-by-step guide on deploying anomaly detection models on edge devices using ArgoCD.
5. Introduction to Apache Kafka and S3
- Explore Apache Kafka for real-time data streaming and Amazon S3 for scalable storage solutions.
6. Viewing Kafka Messages in the Data Lake
- Learn how to view and analyze Kafka messages stored in a data lake for better insights.
7. What is Prometheus?
- Get to know Prometheus, an open-source monitoring and alerting toolkit, and its application in monitoring edge devices.
8. Monitoring Application Metrics with Prometheus
- Detailed instructions on setting up Prometheus to monitor the performance and health of your anomaly detection system.
9. What is Camel K?
- Introduction to Camel K, a lightweight integration framework built on Apache Camel, designed for Kubernetes.
10. Configuring Camel K Integrations for Data Pipelines
- Learn how to configure Camel K for seamless data pipeline integrations in your anomaly detection workflow.
11. What is a Jupyter Notebook?
- Overview of Jupyter Notebooks, an open-source web application for creating and sharing documents with live code, equations, visualizations, and narrative text.
12. Jupyter Notebooks with Code Examples
- Hands-on examples and code snippets in Jupyter Notebooks to help you implement and test anomaly detection models.
Let's Integrate MuleSoft RPA, COMPOSER, APM with AWS IDP along with Slackshyamraj55
Discover the seamless integration of RPA (Robotic Process Automation), COMPOSER, and APM with AWS IDP enhanced with Slack notifications. Explore how these technologies converge to streamline workflows, optimize performance, and ensure secure access, all while leveraging the power of AWS IDP and real-time communication via Slack notifications.
In the rapidly evolving landscape of technologies, XML continues to play a vital role in structuring, storing, and transporting data across diverse systems. The recent advancements in artificial intelligence (AI) present new methodologies for enhancing XML development workflows, introducing efficiency, automation, and intelligent capabilities. This presentation will outline the scope and perspective of utilizing AI in XML development. The potential benefits and the possible pitfalls will be highlighted, providing a balanced view of the subject.
We will explore the capabilities of AI in understanding XML markup languages and autonomously creating structured XML content. Additionally, we will examine the capacity of AI to enrich plain text with appropriate XML markup. Practical examples and methodological guidelines will be provided to elucidate how AI can be effectively prompted to interpret and generate accurate XML markup.
Further emphasis will be placed on the role of AI in developing XSLT, or schemas such as XSD and Schematron. We will address the techniques and strategies adopted to create prompts for generating code, explaining code, or refactoring the code, and the results achieved.
The discussion will extend to how AI can be used to transform XML content. In particular, the focus will be on the use of AI XPath extension functions in XSLT, Schematron, Schematron Quick Fixes, or for XML content refactoring.
The presentation aims to deliver a comprehensive overview of AI usage in XML development, providing attendees with the necessary knowledge to make informed decisions. Whether you’re at the early stages of adopting AI or considering integrating it in advanced XML development, this presentation will cover all levels of expertise.
By highlighting the potential advantages and challenges of integrating AI with XML development tools and languages, the presentation seeks to inspire thoughtful conversation around the future of XML development. We’ll not only delve into the technical aspects of AI-powered XML development but also discuss practical implications and possible future directions.
Driving Business Innovation: Latest Generative AI Advancements & Success StorySafe Software
Are you ready to revolutionize how you handle data? Join us for a webinar where we’ll bring you up to speed with the latest advancements in Generative AI technology and discover how leveraging FME with tools from giants like Google Gemini, Amazon, and Microsoft OpenAI can supercharge your workflow efficiency.
During the hour, we’ll take you through:
Guest Speaker Segment with Hannah Barrington: Dive into the world of dynamic real estate marketing with Hannah, the Marketing Manager at Workspace Group. Hear firsthand how their team generates engaging descriptions for thousands of office units by integrating diverse data sources—from PDF floorplans to web pages—using FME transformers, like OpenAIVisionConnector and AnthropicVisionConnector. This use case will show you how GenAI can streamline content creation for marketing across the board.
Ollama Use Case: Learn how Scenario Specialist Dmitri Bagh has utilized Ollama within FME to input data, create custom models, and enhance security protocols. This segment will include demos to illustrate the full capabilities of FME in AI-driven processes.
Custom AI Models: Discover how to leverage FME to build personalized AI models using your data. Whether it’s populating a model with local data for added security or integrating public AI tools, find out how FME facilitates a versatile and secure approach to AI.
We’ll wrap up with a live Q&A session where you can engage with our experts on your specific use cases, and learn more about optimizing your data workflows with AI.
This webinar is ideal for professionals seeking to harness the power of AI within their data management systems while ensuring high levels of customization and security. Whether you're a novice or an expert, gain actionable insights and strategies to elevate your data processes. Join us to see how FME and AI can revolutionize how you work with data!
A Comprehensive Guide to DeFi Development Services in 2024Intelisync
DeFi represents a paradigm shift in the financial industry. Instead of relying on traditional, centralized institutions like banks, DeFi leverages blockchain technology to create a decentralized network of financial services. This means that financial transactions can occur directly between parties, without intermediaries, using smart contracts on platforms like Ethereum.
In 2024, we are witnessing an explosion of new DeFi projects and protocols, each pushing the boundaries of what’s possible in finance.
In summary, DeFi in 2024 is not just a trend; it’s a revolution that democratizes finance, enhances security and transparency, and fosters continuous innovation. As we proceed through this presentation, we'll explore the various components and services of DeFi in detail, shedding light on how they are transforming the financial landscape.
At Intelisync, we specialize in providing comprehensive DeFi development services tailored to meet the unique needs of our clients. From smart contract development to dApp creation and security audits, we ensure that your DeFi project is built with innovation, security, and scalability in mind. Trust Intelisync to guide you through the intricate landscape of decentralized finance and unlock the full potential of blockchain technology.
Ready to take your DeFi project to the next level? Partner with Intelisync for expert DeFi development services today!
HCL Notes und Domino Lizenzkostenreduzierung in der Welt von DLAUpanagenda
Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-und-domino-lizenzkostenreduzierung-in-der-welt-von-dlau/
DLAU und die Lizenzen nach dem CCB- und CCX-Modell sind für viele in der HCL-Community seit letztem Jahr ein heißes Thema. Als Notes- oder Domino-Kunde haben Sie vielleicht mit unerwartet hohen Benutzerzahlen und Lizenzgebühren zu kämpfen. Sie fragen sich vielleicht, wie diese neue Art der Lizenzierung funktioniert und welchen Nutzen sie Ihnen bringt. Vor allem wollen Sie sicherlich Ihr Budget einhalten und Kosten sparen, wo immer möglich. Das verstehen wir und wir möchten Ihnen dabei helfen!
Wir erklären Ihnen, wie Sie häufige Konfigurationsprobleme lösen können, die dazu führen können, dass mehr Benutzer gezählt werden als nötig, und wie Sie überflüssige oder ungenutzte Konten identifizieren und entfernen können, um Geld zu sparen. Es gibt auch einige Ansätze, die zu unnötigen Ausgaben führen können, z. B. wenn ein Personendokument anstelle eines Mail-Ins für geteilte Mailboxen verwendet wird. Wir zeigen Ihnen solche Fälle und deren Lösungen. Und natürlich erklären wir Ihnen das neue Lizenzmodell.
Nehmen Sie an diesem Webinar teil, bei dem HCL-Ambassador Marc Thomas und Gastredner Franz Walder Ihnen diese neue Welt näherbringen. Es vermittelt Ihnen die Tools und das Know-how, um den Überblick zu bewahren. Sie werden in der Lage sein, Ihre Kosten durch eine optimierte Domino-Konfiguration zu reduzieren und auch in Zukunft gering zu halten.
Diese Themen werden behandelt
- Reduzierung der Lizenzkosten durch Auffinden und Beheben von Fehlkonfigurationen und überflüssigen Konten
- Wie funktionieren CCB- und CCX-Lizenzen wirklich?
- Verstehen des DLAU-Tools und wie man es am besten nutzt
- Tipps für häufige Problembereiche, wie z. B. Team-Postfächer, Funktions-/Testbenutzer usw.
- Praxisbeispiele und Best Practices zum sofortigen Umsetzen
Skybuffer AI: Advanced Conversational and Generative AI Solution on SAP Busin...Tatiana Kojar
Skybuffer AI, built on the robust SAP Business Technology Platform (SAP BTP), is the latest and most advanced version of our AI development, reaffirming our commitment to delivering top-tier AI solutions. Skybuffer AI harnesses all the innovative capabilities of the SAP BTP in the AI domain, from Conversational AI to cutting-edge Generative AI and Retrieval-Augmented Generation (RAG). It also helps SAP customers safeguard their investments into SAP Conversational AI and ensure a seamless, one-click transition to SAP Business AI.
With Skybuffer AI, various AI models can be integrated into a single communication channel such as Microsoft Teams. This integration empowers business users with insights drawn from SAP backend systems, enterprise documents, and the expansive knowledge of Generative AI. And the best part of it is that it is all managed through our intuitive no-code Action Server interface, requiring no extensive coding knowledge and making the advanced AI accessible to more users.
Nunit vs XUnit vs MSTest Differences Between These Unit Testing Frameworks.pdfflufftailshop
When it comes to unit testing in the .NET ecosystem, developers have a wide range of options available. Among the most popular choices are NUnit, XUnit, and MSTest. These unit testing frameworks provide essential tools and features to help ensure the quality and reliability of code. However, understanding the differences between these frameworks is crucial for selecting the most suitable one for your projects.
Skybuffer SAM4U tool for SAP license adoptionTatiana Kojar
Manage and optimize your license adoption and consumption with SAM4U, an SAP free customer software asset management tool.
SAM4U, an SAP complimentary software asset management tool for customers, delivers a detailed and well-structured overview of license inventory and usage with a user-friendly interface. We offer a hosted, cost-effective, and performance-optimized SAM4U setup in the Skybuffer Cloud environment. You retain ownership of the system and data, while we manage the ABAP 7.58 infrastructure, ensuring fixed Total Cost of Ownership (TCO) and exceptional services through the SAP Fiori interface.
5th LF Energy Power Grid Model Meet-up SlidesDanBrown980551
5th Power Grid Model Meet-up
It is with great pleasure that we extend to you an invitation to the 5th Power Grid Model Meet-up, scheduled for 6th June 2024. This event will adopt a hybrid format, allowing participants to join us either through an online Mircosoft Teams session or in person at TU/e located at Den Dolech 2, Eindhoven, Netherlands. The meet-up will be hosted by Eindhoven University of Technology (TU/e), a research university specializing in engineering science & technology.
Power Grid Model
The global energy transition is placing new and unprecedented demands on Distribution System Operators (DSOs). Alongside upgrades to grid capacity, processes such as digitization, capacity optimization, and congestion management are becoming vital for delivering reliable services.
Power Grid Model is an open source project from Linux Foundation Energy and provides a calculation engine that is increasingly essential for DSOs. It offers a standards-based foundation enabling real-time power systems analysis, simulations of electrical power grids, and sophisticated what-if analysis. In addition, it enables in-depth studies and analysis of the electrical power grid’s behavior and performance. This comprehensive model incorporates essential factors such as power generation capacity, electrical losses, voltage levels, power flows, and system stability.
Power Grid Model is currently being applied in a wide variety of use cases, including grid planning, expansion, reliability, and congestion studies. It can also help in analyzing the impact of renewable energy integration, assessing the effects of disturbances or faults, and developing strategies for grid control and optimization.
What to expect
For the upcoming meetup we are organizing, we have an exciting lineup of activities planned:
-Insightful presentations covering two practical applications of the Power Grid Model.
-An update on the latest advancements in Power Grid -Model technology during the first and second quarters of 2024.
-An interactive brainstorming session to discuss and propose new feature requests.
-An opportunity to connect with fellow Power Grid Model enthusiasts and users.
Main news related to the CCS TSI 2023 (2023/1695)Jakub Marek
An English 🇬🇧 translation of a presentation to the speech I gave about the main changes brought by CCS TSI 2023 at the biggest Czech conference on Communications and signalling systems on Railways, which was held in Clarion Hotel Olomouc from 7th to 9th November 2023 (konferenceszt.cz). Attended by around 500 participants and 200 on-line followers.
The original Czech 🇨🇿 version of the presentation can be found here: https://www.slideshare.net/slideshow/hlavni-novinky-souvisejici-s-ccs-tsi-2023-2023-1695/269688092 .
The videorecording (in Czech) from the presentation is available here: https://youtu.be/WzjJWm4IyPk?si=SImb06tuXGb30BEH .
Generating privacy-protected synthetic data using Secludy and MilvusZilliz
During this demo, the founders of Secludy will demonstrate how their system utilizes Milvus to store and manipulate embeddings for generating privacy-protected synthetic data. Their approach not only maintains the confidentiality of the original data but also enhances the utility and scalability of LLMs under privacy constraints. Attendees, including machine learning engineers, data scientists, and data managers, will witness first-hand how Secludy's integration with Milvus empowers organizations to harness the power of LLMs securely and efficiently.
HCL Notes and Domino License Cost Reduction in the World of DLAUpanagenda
Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-and-domino-license-cost-reduction-in-the-world-of-dlau/
The introduction of DLAU and the CCB & CCX licensing model caused quite a stir in the HCL community. As a Notes and Domino customer, you may have faced challenges with unexpected user counts and license costs. You probably have questions on how this new licensing approach works and how to benefit from it. Most importantly, you likely have budget constraints and want to save money where possible. Don’t worry, we can help with all of this!
We’ll show you how to fix common misconfigurations that cause higher-than-expected user counts, and how to identify accounts which you can deactivate to save money. There are also frequent patterns that can cause unnecessary cost, like using a person document instead of a mail-in for shared mailboxes. We’ll provide examples and solutions for those as well. And naturally we’ll explain the new licensing model.
Join HCL Ambassador Marc Thomas in this webinar with a special guest appearance from Franz Walder. It will give you the tools and know-how to stay on top of what is going on with Domino licensing. You will be able lower your cost through an optimized configuration and keep it low going forward.
These topics will be covered
- Reducing license cost by finding and fixing misconfigurations and superfluous accounts
- How do CCB and CCX licenses really work?
- Understanding the DLAU tool and how to best utilize it
- Tips for common problem areas, like team mailboxes, functional/test users, etc
- Practical examples and best practices to implement right away
2. INTRODUCTION
The terminology of air conditioning and climate control
is frequently used interchangeably, yet within the
realm of environmental comfort, they encapsulate
distinct concepts. Delving into the disparities between
these systems unravels insightful nuances. Presented
here are five pivotal points illuminating the differences
between air conditioning and climate control.
3. SCOPE OF FUNCTIONALITY
At its core, air conditioning concentrates on the cooling
of the air, diligently regulating temperature to establish
a comfortable indoor environment. In contrast, the
purview of climate control extends beyond cooling,
encompassing a comprehensive spectrum that
includes heating, ventilation, and humidity control. This
broader functionality results in a more versatile and
holistic comfort solution.
4. TEMPERATURE
REGULATION PRECISION
Air conditioning systems are meticulously engineered
for precise temperature control, with a focus on
achieving and sustaining a specific level of coolness. In
contrast, climate control systems offer a more
nuanced approach, allowing users to tailor settings for
both heating and cooling. This adaptability lends itself
to a more personalized and responsive thermal
experience.
5. SEASONAL ADAPTABILITY
While air conditioning predominantly addresses the
cooling needs of hot seasons, climate control systems
exhibit a dynamic adaptability to seasonal changes.
Beyond cooling, they seamlessly transition to heating
functionality during colder months, ensuring year-
round comfort by effectively addressing the spectrum
of temperature variations.
6. HUMIDITY MANAGEMENT
Climate control systems excel in the adept
management of humidity levels, a facet often beyond
the capabilities of conventional air conditioning. This
additional feature significantly contributes to
enhanced comfort, especially in regions characterized
by varying humidity levels. By efficiently controlling
moisture levels, climate control systems create a more
pleasant indoor environment.
7. COMPREHENSIVE
ENVIRONMENTAL CONTROL
Going beyond the realms of temperature and humidity,
climate control integrates ventilation components into
its repertoire. This holistic environmental control
ensures the circulation of fresh air, contributing to a
healthier indoor atmosphere. By minimizing staleness
and pollutants, climate control systems enhance
overall indoor air quality.
8. CONCLUSION
In summary, the specialization of air conditioning lies in
cooling, while climate control takes a more
encompassing approach, addressing heating,
ventilation, and humidity management. The decision
between the two hinges on specific comfort needs,
environmental considerations, and the preference for a
targeted or comprehensive solution. Understanding
these distinctions empowers individuals to make
informed choices aligned with their unique preferences
and requirements, fostering a more tailored and
comfortable living or working environment.