About

Sep 11-13, 2023    Berlin, Germany

5th International Conference on Big Data, AI and IoT

About  Big Data 2023

The Big Data 2023 is a leading global event that brings together professionals, researchers, and enthusiasts from the fields of  Big Data, Artificial Intelligence, and the Internet of Things. It is a platform that fosters collaboration, knowledge sharing, and networking among industry leaders, academia, and government bodies.

Our goal is to educate and motivate our audience about the newest advancements, fashions, and industry best practices in these quickly expanding areas. We want to encourage the study, creation, and application of Big Data, AI, and IoT technologies in a variety of fields and sectors.

Keynote speeches, technical sessions, panel discussions, poster presentations, and workshops are all part of the conference. Data analytics, machine learning, deep learning, natural language processing, computer vision, robotics, smart cities, connected devices, cybersecurity, and ethics are among the topics covered.

Our attendees, we believe, are the backbone of our Big Data 2023. As a result, we encourage participation from people and organizations from various backgrounds, cultures, and disciplines. Everyone is made to feel welcome, included, and safe at our Big Data 2023.

Our Big Data 2023 also includes a vibrant exhibition area where leading companies, startups, and research institutions showcase their products, services, and solutions. It is an excellent opportunity for attendees to interact with experts, learn about new technologies, and meet potential partners.

We invite you to join us at the "Big Data, AI, and IoT Big Data" event and be a part of the exciting journey of shaping the future of these fields. Whether you are a seasoned professional or a newcomer, you will find something useful, inspiring, and rewarding.

 We look forward to seeing you soon in Berlin, Germany

Great Reason to Attend Big Data 2023

1. Practical Learning
The workshop provides an opportunity to gain practical knowledge and skills related to big data, AI, and IoT that can be directly applied to your work or research.

2. Networking
The workshop provides an opportunity to connect and network with other professionals and researchers in the field, which can lead to potential collaboration and career opportunities.

3. Keeping up with the Latest Trends
The workshop covers the latest trends and developments in the field of big data, AI, and IoT, which can help you stay up-to-date with the latest techniques and tools.

4. Professionals Development
Attending the workshop can contribute to your professional development by enhancing your skills and knowledge in a rapidly growing and evolving field.

5. Hands-on Experience
The workshop may include hands-on exercises and projects, providing you with the opportunity to apply what you have learned and gain practical experience.

Target Audience

1. Data Scientists and  Analysts
2. Machine Learning Engineers
3. AI Researchers
4. Software Engineers
5. Data Engineers
6. Business Intelligence Professionals
7. Entrepreneurs and Investors
8. Policy Makers
9. Consulting Companies
10. Students and Acade
11. Government Officials 
12. IT Professionals
13. Market Professionals 

Important Scientific Sessions

Big Data Models and Algorithms

Welcome to the session on "Big Data Models and Algorithms". We will be discussing how businesses, governments, and individuals can use big data models and algorithms to gain insights and make better decisions. Machine learning and artificial intelligence are driving the evolution of these models and algorithms, and cloud computing, privacy and security concerns, real-time data processing, and edge computing are key considerations when working with big data.

The session's subtopics on big data models and algorithms are listed below:

1. Novel Theoretical Models for Big Data

2. New Computational Models for Big Data

3. Data and Information Quality for Big Data

4. New Data Standards

Big Data Infrastructure

We'll talk about the essential elements and tools needed to create and maintain large data infrastructures in this webinar. The technology and software needed to gather, store, process, and analyze massive amounts of data are collectively referred to as big data infrastructure. Depending on the demands of the organization, the size of the big data infrastructure can range from small-scale deployments to large-scale distributed systems. Large volumes of data may be gathered, stored, processed, and analyzed by organizations with the help of the proper infrastructure in a scalable and economical manner.

The session's subtopics on big data infrastructure are listed below:

1. Cloud/Grid/Stream Computing for Big Data

2. High Performance/Parallel Computing Platforms for Big Data

3. Autonomic Computing and Cyber-infrastructure, System Architecture, Design, and Deployment

4. Energy-efficient Computing for Big Data

5. Programming Models and Environments for Cluster, Cloud, and Grid Computing to Support Big Data

6. Software Techniques and Architectures in Cloud/Grid/Stream Computing

7. Big Data Open Platforms

8. New Programming Models for Big Data beyond Hadoop/MapReduce, STORM

9. Software Systems to Support Big Data Computing

Big Data Management

Welcome to the session on "Big Data Management". In this session, we will discuss the various aspects of managing big data, including data governancedata quality, data integration, and data lifecycle management. Big data is a complex and challenging task that requires a range of skills and technologies. big data management is critical for businesses to leverage the full potential of their data and gain insights to inform decision-making. By addressing the challenges of data integration, security, and privacy and adopting a holistic approach to data management, businesses can unlock the full potential of big data and gain a competitive edge in the market.

The session's subtopics on big data management are listed below:

1. Search and Mining of a variety of data including scientific and engineering, social, sensor/IoT/IoE, and multimedia data

2. Algorithms and Systems for Big Data Search

3. Distributed, and Peer-to-peer Search

4. Big Data Search Architectures, Scalability, and Efficiency

5. Data Acquisition, Integration, Cleaning, and Best Practices

6. Visualization Analytics for Big Data

7. Computational Modeling and Data Integration

8. Large-scale Recommendation Systems and Social Media Systems

9. Cloud/Grid/Stream Data Mining- Big Velocity Data

10. Link and Graph Mining

11. Semantic-based Data Mining and Data Pre-processing

12. Mobility and Big Data

13. Multimedia and Multi-structured Data- Big Variety Data

Big Data Search and Mining

In this session on big data search and mining, some of the key topics that might be covered include data collection, data preprocessing, data storage, data analysis, and data visualization. The session might also explore some of the most commonly used techniques in big data search and mining, such as machine learning, data mining, natural language processing, text analytics, and visualization. Overall, a session on big data search and mining would aim to provide attendees with a deeper understanding of the field and its applications, as well as some practical tips and tools for analyzing large and complex datasets.

The session's subtopics on big data Search and mining are listed below:

1. Social Web Search and Mining

2. Web Search

3. Algorithms and Systems for Big Data Search

4. Distributed, and Peer-to-peer Search

5. Big Data Search Architectures, Scalability and Efficiency

6. Data Acquisition, Integration, Cleaning, and Best Practices

7. Visualization Analytics for Big Data

8. Computational Modeling and Data Integration

9. Large-scale Recommendation Systems and Social Media Systems

10. Cloud/Grid/Stream Data Mining- Big Velocity Data

11. Link and Graph Mining

12. Semantic-based Data Mining and Data Pre-processing

13. Mobility and Big Data

14. Multimedia and Multi-structured Data-Big Variety Data

Big Data Learning and Analytics

Big Data Learning and Analytics is a field that focuses on using advanced computational techniques to extract valuable insights, patterns, and knowledge from large and complex datasets. The process involves analyzing massive amounts of data to discover correlations, trends, and patterns that can help organizations make data-driven decisions. Another important aspect of Big Data Learning and Analytics is data visualization, which involves creating visual representations of the analyzed data to help users understand and interpret the insights and patterns. The session might discuss tools and techniques for data visualization, such as interactive dashboards, charts, and graphs.

The session's subtopics on Big Data Learning and Analytics are listed below:

1. Predictive analytics on Big Data

2. Machine learning algorithms for Big Data

3. Deep learning for Big Data

4. Feature representation learning for Big Data

5. Dimension reduction for Big Data

6. Physics-informed Big Data learning

Data Eco System

In this session, we will explore the concept of the data ecosystem and its importance in the modern business landscape. A data ecosystem is a network of interconnected entities that work together to create, store, manage, and utilize data. It includes data sources, storage systems, management tools, analytics tools, and data consumers. A data ecosystem is a complex network of interconnected components that play a crucial role in enabling businesses to make data-driven decisions. By adopting a holistic approach to data management and addressing the challenges of data integration, security, privacy, and governance, businesses can unlock the full potential of their data and gain a competitive edge in the market.

The session's subtopics on data ecosystem are listed below:

1. Data ecosystem concepts, theory, structure, and process

2. Ecosystem services and management

3. Methods for data exchange, monetization, and pricing

4. Trust, resilience, privacy, and security issues

5. Privacy-preserving Big Data collection/analytics

6. Trust management in Big Data systems

7. Ecosystem assessment, valuation, and sustainability

8. Experimental studies of fairness, diversity, accountability, and transparency

Big Data Protection, Integrity, and Privacy

In this session, we will discuss "Big Data Protection, Integrity, and Privacy." In today's digital age, big data has become an essential asset for businesses to drive growth and make informed decisions. However, as the volume, velocity, and variety of data continue to grow, it has become increasingly challenging to protect and maintain the integrity and privacy of this data. The protection, integrity, and privacy of big data are critical aspects of big data management that businesses need to prioritize. By addressing the challenges of data protection, integrity, and privacy and adopting a holistic approach to data management, businesses can unlock the full potential of big data and gain a competitive edge in the market while maintaining the trust of their customers.

The session's subtopics on big data protection, and integrity is listed below:

1. Models and Languages for Big Data Protection

2. Privacy-Preserving Big Data Analytics

3. Big Data Encryption

Big Data Applications

We will investigate the "Big Data Application" in this session. Data is expanding at an unprecedented rate in the digital era that we live in. Applications built on top of big data are essential for organizing, controlling, and using this data for analysis and decision-making. Applications for big data assist in identifying hidden patterns, forecasting trends, and streamlining company processes to improve performance. Big Data applications have completely changed how organizations handle and examine their data. However, managing enormous quantities of data presents particular difficulties that must be resolved. Businesses can create effective, scalable, and secure big data applications that aid in their success by using a comprehensive development strategy and taking into account the infrastructure needs.

The session's subtopics on big data applications are listed below:

1. Complex Big Data Applications in Science, Engineering, Medicine, Healthcare, Finance, Business, Law, Education, Transportation, Retailing, Telecommunication

2. Big Data Analytics in Small Business Enterprises (SMEs)

3. Big Data Analytics in Government, Public Sector, and Society in General

4. Real-life Case Studies of Value Creation through Big Data Analytics

5. Big Data as a Service

6. Big Data Industry Standards

7. Experiences with Big Data Project Deployments 

Artificial Intelligence

Artificial Intelligence (AI) has become one of the most talked-about topics in recent years. From self-driving cars to virtual assistants, AI is transforming the way we live and work. It has the potential to revolutionize many different fields, from healthcare to finance to manufacturing.  AI applications often deal with sensitive information, and it is essential to ensure that this information is protected from unauthorized access and misuse. AI has enormous potential to transform our lives for the better. By addressing these challenges and developing responsible AI applications, we can leverage the power of AI to solve some of the world's most pressing problems.

Intelligent Information Systems

In this session, we will discuss Intelligent Information Systems (IIS) is a rapidly evolving field, with new developments and applications emerging all the time. Some of the most significant recent trends in IIS include Natural Language Processing, Machine Learning, and Knowledge Representation to provide users with more accurate and relevant information. Intelligent Information Systems have enormous potential to transform the way we work and live. By addressing the challenges associated with IIS and developing responsible applications, we can leverage the power of AI to provide more intelligent and personalized information services to users.

Intelligent Data Mining and Framing

We will address the issue of intelligent data mining and farming in this session, as businesses and organizations continue to grasp the importance of harnessing big data to achieve a competitive edge. Ethical issues, data security, talent recruiting, and automation are among the primary topics covered. Ultimately, the debate over intelligent data mining and farming is expected to continue as businesses seek new methods to use big data to acquire insights and enhance decision-making. As technology advances, we may expect new tools and strategies to develop that will improve the capabilities of data mining and farming.

Intelligent Web-based Business

We'll discuss the issue of intelligent web-based business in this session. E-commerce, sometimes referred to as "intelligent web-based business, is a quickly expanding industry that is always changing due to technological improvements. Blockchain technology, social media integration, customer data protection, and sustainability are some of the topics that are now being discussed in relation to intelligent web-based companies. In general, the debate over intelligent web-based business is likely to continue as long as companies continue to invest in cutting-edge technology and methods to enhance their operations and provide consumers with better experiences. We may anticipate new tools and strategies to develop as technology progresses, significantly enhancing the potential of smart web-based organizations.

Intelligent Agents

Software applications known as intelligent agents are capable of carrying out tasks for users with varied levels of autonomy. These agents have the ability to pick up on user behavior, make choices based on information provided, and take actions to accomplish predetermined objectives. Intelligent agents are now being discussed in relation to private security, ethical issues, integration, healthcare, and natural language processing. In general, the debate over intelligent agents is concentrated on examining their possible advantages and uses, as well as identifying and resolving any potential difficulties or dangers connected to their creation and usage. We may anticipate that arguments regarding the future of intelligent beings and their effects on society will continue as technology develops.

Intelligent Networks and Intelligent Databases

This session will cover two related issues that are currently being studied in the field of computer science and information technology: intelligent networks and intelligent databases. Here are a few recent debates on edge computing, network security, 5G networks, and beyond. The conversations around intelligent networks and intelligent databases are often concentrated on examining their possible advantages and uses, as well as identifying and resolving any potential hazards and issues connected to their creation and usage. We may anticipate that arguments about the future of intelligent networks and intelligent databases and their effects on society will continue as technology develops.

Intelligent user Interface

We will be discussing intelligent user interfaces, or IUI, which refers to the development of interfaces that use artificial intelligence (AI) and other advanced technologies to provide more intuitive and user-friendly experiences for users such as personalization, multimodal interfaces, explainable AI, and accessibility. Overall, the discussions around IUIs are focused on developing interfaces that are more intuitive, user-friendly, and personalized. As AI and other technologies continue to advance, we can expect to see ongoing discussions around the future of IUIs and their impact on society.

AI and Evolutionary Algorithms

We'll talk about the exciting fields of artificial intelligence and evolutionary algorithms. A subset of artificial intelligence known as evolutionary algorithms is based on natural selection and evolution. In order for evolutionary algorithms to function, a population of potential solutions must first be created. Robotics, flexibility, and interpretability, as well as genetic algorithms and evolutionary programming, A potent branch of artificial intelligence known as evolutionary algorithms, have been successfully used to solve a variety of challenging issues. We may anticipate additional uses of evolutionary algorithms as AI and other technologies develop, as well as continued arguments about their advantages, drawbacks, and ethical implications.

Intelligent Tutoring Systems

We will be discussing the basics of intelligent tutoring systems and how they can be used to improve education and learning outcomes. Intelligent Tutoring Systems are a promising technology that has the potential to improve education and learning outcomes. They provide personalized instruction and feedback, are efficient and scalable, and have applications in a wide range of fields. While there are challenges and concerns associated with their use, ongoing research and development can help to address these issues and ensure that (ITS) continues to be a valuable tool for improving education and training.

Reasoning Strategies

We will be discussing the basics of reasoning strategies, including what they are, how they work, and why they are important. Reasoning strategies are essential for problem-solving, learning, communication, and critical thinking. They involve cognitive processes that can be conscious or unconscious and can vary depending on the individual, the context, and the problem at hand. While there are challenges and concerns associated with using reasoning strategies, ongoing research and development can help to address these issues and ensure that they continue to be valuable tools for decision-making and problem-solving.

Distributed AI Algorithms and Techniques

Let's get started with the session on distributed AI algorithms and techniques. To begin with, distributed artificial intelligence (DAI) is a subfield of artificial intelligence that focuses on developing intelligent algorithms and techniques for distributed computing systems. It deals with the coordination and communication of multiple agents to achieve a common goal, which is a key characteristic of DAI. Distributed AI algorithms and techniques offer promising solutions for complex problems that cannot be solved by centralized systems. However, there are also challenges that need to be addressed. As technology advances, new opportunities, and challenges will arise, and it is important for researchers and practitioners to keep up with the latest developments in the field.

Distributed AI systems and Architectures

The session on "Distributed AI Systems and Architectures" will be discussed. Many agents work together to accomplish a shared objective in a distributed computing environment, which is where distributed AI systems are built to function. These systems may be efficient, scalable, and fault-tolerant. They are employed in many different fields, including telephony, logistics, healthcare, and finance. For complicated issues that can't be resolved by centralized systems, distributed AI systems and architectures provide an encouraging option. Yet creating these systems presents difficulties and necessitates thorough consideration of procedures for cooperation and communication as well as security and privacy. New applications and solutions are becoming possible due to technological improvements; therefore, it is crucial for researchers and practitioners to keep current with the latest developments in the field.

Neural Networks and Applications

Let's talk about the "Neural Networks and Applications" seminar. The structure and operation of the human brain served as the inspiration for the class of machine learning algorithms known as neural networks. They may be used for a variety of purposes, including image and speech recognition, natural language processing, and decision-making. They are created to identify patterns and correlations in data. A potent family of machine learning algorithms called neural networks has many uses in several industries. Nevertheless, the network architecture, training data, and processing resources must all be carefully taken into account while developing and training neural networks. Researchers and practitioners should keep up with the most recent breakthroughs as new applications and solutions are made possible by the advancements in technology.

Heuristic Searching Methods

Let's talk about the "Heuristic Searching Techniques" session. When the search space is too big to be fully investigated, heuristic search techniques are employed to locate the best answer to a problem. These techniques direct the search process towards promising regions of the search space using heuristics, or rules of thumb. When the search space is too big to be fully investigated, heuristic search methods are an effective way to identify the best answers to issues. The choice of heuristics and the balance between exploration and exploitation must be carefully taken into account while developing and applying these strategies, though. It is crucial for academics and practitioners to keep current with these developments since they present chances for new applications and solutions.

Languages and Programming Techniques for AI

Let's discuss the session on "Languages and programming techniques for AI." Languages and programming techniques for AI are essential tools for designing and implementing intelligent systems. The choice of programming language and techniques depends on the specific application and problem domain, as well as the available computational resources. programming languages and techniques are essential tools for designing and implementing AI systems. The choice of language and technique depends on the specific requirements of the application and the problem domain.

Constraint-based Reasoning and Constraint Programming

This session will be held on Reasoning with Constraint-based reasoning and constraint programming" It entails expressing and reasoning about a problem by employing a set of constraints that must be met in order to arrive at a solution. A constraint is a limitation or requirement in an issue that limits the values or relationships of variables. In a scheduling problem, for example, constraints could include resource availability, the maximum number of jobs that can be done in a particular time period, and task dependencies. Overall, constraint-based reasoning and constraint programming are useful methods for resolving complicated issues, and they are employed in a variety of applications ranging from scheduling and resource allocation to logistics and transportation planning.

 Intelligent Information Fusion

In a session on intelligent information fusion, a presenter or presenters might discuss some of the key principles and techniques used in this field, as well as some practical examples and applications. They might also discuss some of the challenges and limitations associated with intelligent information fusion, such as the need to deal with heterogeneous data sources, the difficulty of integrating data from different domains or contexts, and the potential for biases and errors to be introduced through the fusion process. Overall, intelligent information fusion is an important area of research that has the potential to improve decision-making and understanding across a wide range of fields, from military and defense to healthcare and finance. A session on this topic could provide valuable insights and practical guidance for researchers, practitioners, and decision-makers interested in this field.

Learning and Adaptive Sensor Fusion

A session on learning and adaptive sensor fusion might cover a range of topics related to this field, such as the different types of sensors that can be used, the different types of data that can be fused, and the different techniques that can be used to improve the accuracy and reliability of the fused data. The session might also cover the different types of machine learning algorithms that can be used in sensor fusion, such as neural networks, decision trees, and Bayesian networks. These algorithms can be used to identify patterns and relationships in the data and adaptively adjust the fusion process in response to changing conditions or new information.

Search and Meta-heuristics

In this session, we will discuss search and meta-heuristics, two related fields that are commonly used in the context of optimization problems. Search refers to the process of exploring a set of possible solutions to find the best one. This can be done using various techniques such as brute-force search, local search, and global search. Brute-force search is often impractical for large problems, so more sophisticated techniques are used. Overall, search and meta-heuristics are important tools for finding optimal solutions to complex problems and continuing to be active areas of research in computer science and operations research.

Multi-sensor Data Fusion using Neural and Fuzzy Techniques

In this session, we will discuss Multi-sensor Data Fusion using Neural and Fuzzy Techniques. Multi-sensor data fusion refers to the process of integrating data from multiple sensors to obtain a more comprehensive understanding of a system or environment. This process can be achieved using various techniques, such as statistical methods, machine learning algorithms, and fuzzy logic systems. Overall, the use of neural and fuzzy techniques in multi-sensor data fusion can lead to improved accuracy, robustness, and reliability in the resulting integrated data, providing a more complete understanding of the system or environment being monitored.

Integration of AI with other technologies

The integration of AI with other technologies involves combining artificial intelligence with other technologies to create more advanced and intelligent systems. The integration of AI with other technologies has the potential to revolutionize industries and transform the way we live and work. Some examples of technologies that can be integrated with AI include the Internet of Things (IoT), Robotics, Blockchain, Augmented Reality (AR), and Virtual Reality (VR) Overall, the integration of AI with other technologies can lead to more intelligent and efficient systems that can benefit various industries and improve the quality of life for people.

Evaluation of AI Tools

In this session, we will be Evaluation of AI tools. Evaluating AI tools is an important step in determining their effectiveness and suitability for a particular task. There are several factors that can be considered when evaluating AI tools, including Accuracy, Scalability, Robustness, Explain ability, Cost, and Training and deployment time Overall, evaluating AI tools requires careful consideration of multiple factors, such as the suitability of a tool can depend on the specific application and context in which it will be used.

Social Intelligence and Social Impact of AI

In this session, we will talk about social intelligence and the social impact of AI. Social intelligence refers to the ability of individuals or systems to navigate and understand social situations and relationships. The social impact of AI refers to the ways in which artificial intelligence can affect human society, both positively and negatively. social intelligence is becoming an increasingly important aspect of AI development. This includes the ability of AI systems to understand and respond to social cues, communicate effectively with humans, and adapt to diverse social contexts. By incorporating social intelligence into AI development, we can create more human-centered and socially responsible AI systems that are better suited to navigate complex social situations and contribute positively to society.

Brain Models, Brain mapping, Cognitive science, and Bioinformatics

In this session, Brain modeling, brain mapping, cognitive science, and bioinformatics are all interconnected topics that help us understand the brain and its activities. Brain models enable us to replicate and comprehend the neurological principles that underpin cognitive functions, whereas brain mapping gives a precise map of the brain and its many areas. Cognitive science is the study of cognitive processes such as perception, attention, memory, language, and reasoning. These domains work together to advance our understanding of the brain, which can lead to novel therapies for brain illnesses and increase our capacity to design intelligent systems. Bioinformatics is also an important tool in brain research since it helps researchers examine massive and complicated information in order to obtain insight into the brain.

Natural Language Processing 

During a natural language processing session, you may learn about the many components of NLP, such as morphological analysis, syntax, semantics, and pragmatics. You may also learn about the many NLP approaches and algorithms, such as statistical methods, rule-based methods, and machine learning techniques like deep learning. NLP is an area of artificial intelligence and computational linguistics concerned with natural language interaction between computers and people. Its primary goal is to enable computers to comprehend, interpret, and produce human language. NLP has several uses, including chatbots and virtual assistants, sentiment analysis, and language translation.

 Fuzzy Logic and Soft Computing

During a session on Fuzzy Logic and Soft Computing, you might learn about the different components of Fuzzy Logic, including fuzzy sets, fuzzy logic operators, and fuzzy inference systems. You might also learn about the various applications of Fuzzy Logic, such as in control systems, image processing, and decision-making. In addition, you might explore some of the other techniques that fall under the umbrella of Soft Computing, such as Neural Networks, Evolutionary Computing, and Probabilistic Reasoning. You might also learn about the advantages and limitations of these techniques, and how they can be combined to solve complex real-world problems. Overall, Fuzzy Logic and Soft Computing are important tools for dealing with uncertainty and imprecision in decision-making, and they have a wide range of applications in various fields.

Software Tools for AI and Emerging Technologies

In the session, we will talk about Software Tools for AI and Emerging Technologies! as AI and other emerging technologies continue to advance, there is a growing need for software tools that can help developers and researchers build, test, and deploy these technologies more efficiently and effectively. During a session on software tools for AI and emerging technologies, you might learn about some of the different types of software tools available, including Machine Learning Libraries, Data Science Platforms, Development Frameworks, and Visualization Tools. In addition to these software tools, you might also learn about emerging technologies that are changing the landscape of AI development, such as Edge Computing, Quantum Computing, and Blockchain. Overall, software tools for AI and emerging technologies are essential for driving innovation and advancing the field of artificial intelligence.

Decision Support Systems

A session on "Decision Support Systems" would provide an in-depth understanding of DSS and its applications, as well as the challenges and opportunities in building and using these systems. A Decision Support System (DSS) is a computer-based system that helps individuals and organizations make better decisions. DSS typically uses data analytics and models to help users analyze complex data and make informed decisions. DSS can be used in a variety of settings, including business, healthcare, government, and finance, to name a few. Some examples of decision support systems include Business Intelligence Systems, Clinical Decision Support Systems, Geographic Information Systems, and Financial Decision Support Systems.

Automated Problem Solving

A session on Automated Problem Solving would provide an in-depth understanding of the different techniques and algorithms used in solving complex problems automatically, as well as their applications, challenges, and future directions. Automated problem-solving is the process of developing computer programs or systems that can automatically find solutions to complex problems without human intervention. It involves the use of algorithms, heuristics, and other computational techniques to search for a solution in a large solution space. One of the key challenges in automated problem-solving is the scalability of the solution. As the problem size increases, the computational resources required also increase exponentially. Another challenge is the uncertainty in the problem domain, which can make it difficult to find an optimal solution.

 

IoT Protocols and Transports

Let's dive into the details of IoT protocols and transports. IoT protocols are communication protocols used for transferring data between devices in an IoT network. There are several IoT protocols available, each with its own unique features and advantages. The choice of IoT protocol and transport depends on the specific requirements of the IoT application. For example, low-power devices and networks may require a lightweight protocol and low-power wireless technology, while high-bandwidth applications may require a high-speed protocol and Wi-Fi or cellular transport.

 

Security for IoT

Let's dive deeper into the topic of security for the IoT. As we know, IoT devices are connected to the internet and can potentially be vulnerable to various security threats. One of the major security concerns in IoT is the lack of security features in many devices due to cost and power limitations. This makes them easy targets for attackers, who can use them as a gateway to gain access to the wider network or to launch attacks on other devices or systems. To address these concerns, several security measures can be taken to secure IoT devices and networks: data encryption, secure communication protocols, secure software development, monitoring, and detection. By implementing these security measures, IoT devices and networks can be better protected against security threats, and users can have greater confidence in the security and privacy of their data.

 

IoT Architectures & Protocol

Let's dive deeper into the topic of IoT architectures and protocols. One of the most popular IoT architectures is the centralized architecture, where all IoT devices are connected to a central hub or cloud-based platform. The hub receives data from the devices, processes it, and sends it to the relevant application or service. This architecture is commonly used in smart homes, smart cities, and industrial IoT applications. Overall, IoT architectures and protocols are essential components of the IoT ecosystem and play a crucial role in enabling efficient and effective communication between IoT devices and applications.

 

 IoT System Architecture

The design and structure of an IoT system's many components are referred to as IoT system architecture. Hardware devices, software programmers, data storage, communication protocols, and interfaces are all common components. IoT devices, cloud computing, communication protocols, data analytics, user interfaces, and edge computing are some of the major components of an IoT system architecture. An efficient IoT system design should be scalable, secure, and adaptable to a variety of use cases and settings. It should be built to manage the massive volumes of data created by IoT devices while also providing real-time insights to aid decision-making and increase operational efficiency.

 

IoT Enabling Technologies

Let's begin our session on IoT Enabling Technologies. IoT is made up of various enabling technologies that enable devices to connect and communicate with each other. Some of the key enabling technologies for the IoT include wireless sensor networks, low-power wide-area networks, cellular networks, edge computing, blockchain, artificial intelligence, and machine learning. These enabling technologies are critical for the success of the IoT, as they enable devices to communicate and share data and enable the creation of intelligent systems that can make sense of this data.

 

Applications of IoT

Let's start with the IoT (Internet of Things) refers to a network of connected physical devices, vehicles, home appliances, and other items that are embedded with sensors, software, and network connectivity to exchange data with other devices and systems. The applications of IoT are numerous and diverse and include Healthcare, Agriculture, Manufacturing, Transportation, Energy Management, Smart homes, and buildings. Overall, the applications of IoT are vast and varied and have the potential to transform a wide range of industries and services.

 

Market Analysis

The Market for Big Data, AI, and IoT solutions and services is growing rapidly, driven by the increasing demand for advanced analytics, automation, and connectivity. According to a report by MarketsandMarkets, the global market for AI is projected to grow from $58.3 billion in 2021 to $309.6 billion by 2026, while the global IoT market is expected to reach $1.3 trillion by 2026.

The adoption of Big Data, AI, and IoT technologies is widespread across industries such as healthcare, retail, manufacturing, and transportation, among others. These technologies are being used to improve efficiency, reduce costs, enhance customer experiences, and drive innovation.

In the context of "Big Data, AI, and IoT Big Data", the conference is likely to attract attendees from a wide range of industries seeking to learn about the latest trends and developments in these fields. The conference's focus on practical applications and case studies is particularly appealing to professionals and researchers seeking to enhance their knowledge and skills in these areas.

Furthermore, the conference provides an opportunity for networking and collaboration, which is valuable for businesses seeking to connect with others in the field and explore potential business opportunities. The conference is likely to attract attendees from a variety of backgrounds, including data scientists, software developers, business analysts, researchers, and IT professionals, among others.

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