WIDEa is R-based software aiming to provide users with a range of functionalities to explore, manage, clean and analyse "big" environmental and (in/ex situ) experimental data. These functionalities are the following, 1. Loading/reading different data types: basic (called normal), temporal, infrared spectra of mid/near region (called IR) with frequency (wavenumber) used as unit (in cm-1); 2. Interactive data visualization from a multitude of graph representations: 2D/3D scatter-plot, box-plot, hist-plot, bar-plot, correlation matrix; 3. Manipulation of variables: concatenation of qualitative variables, transformation of quantitative variables by generic functions in R; 4. Application of mathematical/statistical methods; 5. Creation/management of data (named flag data) considered as atypical; 6. Study of normal distribution model results for different strategies: calibration (checking assumptions on residuals), validation (comparison between measured and fitted values). The model form can be more or less complex: mixed effects, main/interaction effects, weighted residuals.

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Data Visualization Tools Market Size 2025-2029

The data visualization tools market size is forecast to increase by USD 7.95 billion at a CAGR of 11.2% between 2024 and 2029.

The market is experiencing significant growth due to the increasing demand for business intelligence and AI-powered insights. Companies are recognizing the value of transforming complex data into easily digestible visual representations to inform strategic decision-making. However, this market faces challenges as data complexity and massive data volumes continue to escalate. Organizations must invest in advanced data visualization tools to effectively manage and analyze their data to gain a competitive edge. The ability to automate data visualization processes and integrate AI capabilities will be crucial for companies to overcome the challenges posed by data complexity and volume. By doing so, they can streamline their business operations, enhance data-driven insights, and ultimately drive growth in their respective industries.

What will be the Size of the Data Visualization Tools Market during the forecast period?

Request Free SampleIn today's data-driven business landscape, the market continues to evolve, integrating advanced capabilities to support various sectors in making informed decisions. Data storytelling and preparation are crucial elements, enabling organizations to effectively communicate complex data insights. Real-time data visualization ensures agility, while data security safeguards sensitive information. Data dashboards facilitate data exploration and discovery, offering data-driven finance, strategy, and customer experience. Big data visualization tackles complex datasets, enabling data-driven decision making and innovation. Data blending and filtering streamline data integration and analysis. Data visualization software supports data transformation, cleaning, and aggregation, enhancing data-driven operations and healthcare. On-premises and cloud-based solutions cater to diverse business needs. Data governance, ethics, and literacy are integral components, ensuring data-driven product development, government, and education adhere to best practices. Natural language processing, machine learning, and visual analytics further enrich data-driven insights, enabling interactive charts and data reporting. Data connectivity and data-driven sales fuel business intelligence and marketing, while data discovery and data wrangling simplify data exploration and preparation. The market's continuous dynamism underscores the importance of data culture, data-driven innovation, and data-driven HR, as organizations strive to leverage data to gain a competitive edge.

How is this Data Visualization Tools Industry segmented?

The data visualization tools industry research report provides comprehensive data (region-wise segment analysis), with forecasts and estimates in 'USD million' for the period 2025-2029, as well as historical data from 2019-2023 for the following segments. DeploymentOn-premisesCloudCustomer TypeLarge enterprisesSMEsComponentSoftwareServicesApplicationHuman resourcesFinanceOthersEnd-userBFSIIT and telecommunicationHealthcareRetailOthersGeographyNorth AmericaUSMexicoEuropeFranceGermanyUKMiddle East and AfricaUAEAPACAustraliaChinaIndiaJapanSouth KoreaSouth AmericaBrazilRest of World (ROW)

By Deployment Insights

The on-premises segment is estimated to witness significant growth during the forecast period.The market has experienced notable expansion as businesses across diverse sectors acknowledge the significance of data analysis and representation to uncover valuable insights and inform strategic decisions. Data visualization plays a pivotal role in this domain. On-premises deployment, which involves implementing data visualization tools within an organization's physical infrastructure or dedicated data centers, is a popular choice. This approach offers organizations greater control over their data, ensuring data security, privacy, and adherence to data governance policies. It caters to industries dealing with sensitive data, subject to regulatory requirements, or having stringent security protocols that prohibit cloud-based solutions. Data storytelling, data preparation, data-driven product development, data-driven government, real-time data visualization, data security, data dashboards, data-driven finance, data-driven strategy, big data visualization, data-driven decision making, data blending, data filtering, data visualization software, data exploration, data-driven insights, data-driven customer experience, data mapping, data culture, data cleaning, data-driven operations, data aggregation, data transformation, data-driven healthcare, on-premises data visualization, data governance, data ethics, data discovery, natural language processing, data reporting, data visualization platforms, data-driven innovation, data wrangling, data-driven sales, data connectivit

Understanding human behavior is a fundamental goal of social sciences, yet conventional methodologies are often limited by labor-intensive data collection and complex analyses. Computational models offer a promising alternative for analyzing large datasets and identifying key behavioral indicators, but their adoption is hindered by technical complexity and substantial computational requirements. To address these barriers, we introduce DISCOVER, a modular and user-friendly software framework designed to streamline computational data exploration for human behavior analysis. DISCOVER democratizes access to state-of-the-art models, enabling researchers across disciplines to conduct detailed behavioral analyses without extensive technical expertise. In this paper, we are showcasing DISCOVER using four modular data exploration workflows that build on each other: Semantic Content Exploration, Visual Inspection, Aided Annotation, and Multimodal Scene Search. Finally, we report initial findings from a user study. The study examined DISCOVER’s potential to support prospective psychotherapists in structuring information for treatment planning, i.e. case conceptualizations.

AI in Data Visualization Market Outlook

According to our latest research, the global AI in Data Visualization market size reached $3.8 billion in 2024, demonstrating robust growth as organizations increasingly leverage artificial intelligence to enhance data-driven decision-making. The market is forecasted to expand at a CAGR of 21.1% from 2025 to 2033, reaching an estimated $26.6 billion by 2033. This exceptional growth is fueled by the rising demand for actionable insights, the proliferation of big data, and the integration of AI technologies to automate and enrich data visualization processes across industries.

A primary growth factor in the AI in Data Visualization market is the exponential increase in data generation from various sources, including IoT devices, social media platforms, and enterprise systems. Organizations face significant challenges in interpreting complex datasets, and AI-powered visualization tools offer a solution by transforming raw data into intuitive, interactive visual formats. These solutions enable businesses to quickly identify trends, patterns, and anomalies, thereby improving operational efficiency and strategic planning. The integration of AI capabilities such as natural language processing, machine learning, and automated analytics further enhances the value proposition, allowing users to generate dynamic visualizations with minimal technical expertise.

Another significant driver is the growing adoption of business intelligence and analytics platforms across diverse sectors such as BFSI, healthcare, retail, and manufacturing. As competition intensifies and consumer expectations evolve, enterprises are prioritizing data-driven decision-making to gain a competitive edge. AI in data visualization solutions empower users at all organizational levels to interact with data in real-time, uncover hidden insights, and make informed decisions rapidly. The shift towards self-service analytics, where non-technical users can generate their own reports and dashboards, is accelerating the uptake of AI-driven visualization tools. This democratization of data access is expected to continue propelling the market forward.

The rapid advancements in cloud computing and the increasing adoption of cloud-based analytics platforms are also contributing to the growth of the AI in Data Visualization market. Cloud deployment offers scalability, flexibility, and cost-effectiveness, enabling organizations to process and visualize vast volumes of data without substantial infrastructure investments. Additionally, cloud-based solutions facilitate seamless integration with other enterprise applications and data sources, supporting real-time analytics and collaboration across geographically dispersed teams. As more organizations transition to hybrid and multi-cloud environments, the demand for AI-powered visualization tools that can operate efficiently in these settings is poised to surge.

From a regional perspective, North America currently dominates the AI in Data Visualization market due to the presence of leading technology providers, high digital adoption rates, and significant investments in AI and analytics. However, the Asia Pacific region is anticipated to witness the fastest growth over the forecast period, driven by rapid digitalization, expanding IT infrastructure, and increasing awareness of the benefits of AI-driven data visualization. Europe is also expected to see substantial adoption, particularly in industries such as finance, healthcare, and manufacturing, where regulatory compliance and data-driven strategies are critical. Meanwhile, emerging markets in Latin America and the Middle East & Africa are gradually embracing these technologies as digital transformation initiatives gain momentum.

Component Analysis

The Component segment of the AI in Data Visualization market is bifurcated into Software and Services, each playing a pivotal role in shaping the industry landscape. Software solutions encompass a wide array of platforms and tools that leverage AI algorithms to automate, enhance, and personalize data visualization. These solutions are designed to cater to varying business needs, from simple dashboard creation to advanced predictive analytics and real-time data exploration. The software segment is witnessing rapid innovation, with vendors continuously integrating new AI capabilities such as natural language queries, automated anomaly detection, and adaptive visualization techniques. This has significantly reduced the learning

This map service shows the locations of the properties under geothermal exploration development (exploration, testing, construction) in Nevada as of mid-2011. The map service contains 20 separate data coverages, individually documented elsewhere by category: http://www.nbmg.unr.edu/Geothermal/Data.html . For more info on this resource or to view the interactive map, please see the links provided.

Both desktop and web-based solutions are included.This table comprises a list of potential software solutions for typical genomic data analysis tasks in molecular ecology (e.g. alignment, phylogenetics, data exploration, etc.).

Location Intelligence Analytics Market Outlook

The global location intelligence analytics market size is projected to grow from USD 14.2 billion in 2023 to USD 31.7 billion by 2032, exhibiting a CAGR of approximately 9.4% during the forecast period. This robust growth is primarily driven by the increasing demand for spatial data and analytical tools across various industries to enhance decision-making processes and optimize business operations. As organizations increasingly recognize the value of location-based insights, they are investing in sophisticated analytics solutions that leverage geographic data to drive business outcomes and gain competitive advantages.

One of the primary growth factors for the location intelligence analytics market is the proliferation of IoT devices and the consequent surge in location-based data generation. With billions of connected devices expected to be operational in the coming years, the volume of location-specific data is set to explode. Businesses across industries are eager to harness this data to gain insights into consumer behavior, improve operational efficiency, and develop targeted marketing strategies. Moreover, advancements in AI and machine learning are enabling more sophisticated analysis of location data, providing deeper insights and predictive capabilities that are invaluable to enterprises.

Another significant driver for market growth is the growing adoption of smart city initiatives across the globe. Governments and municipalities are increasingly implementing location intelligence solutions to enhance urban planning, traffic management, and public safety. By leveraging location-based analytics, cities can optimize resource allocation, improve citizen services, and drive sustainable development. Furthermore, the integration of real-time data from various sources, such as sensors and social media, with geographic information systems (GIS) is facilitating more dynamic and responsive urban management systems, thus propelling the demand for location intelligence analytics.

The increasing emphasis on business intelligence and data-driven decision-making is also fueling the demand for location intelligence analytics. In today's competitive landscape, organizations are seeking to leverage every bit of data to gain actionable insights and stay ahead. Location intelligence provides a unique perspective by overlaying geographic data on traditional business data, offering a holistic view of trends and patterns. This capability is particularly valuable in sectors such as retail, transportation, and logistics, where location-based insights can directly impact revenue generation, cost savings, and customer satisfaction.

Regionally, North America is expected to hold the largest share of the location intelligence analytics market, driven by the presence of major technology companies and the rapid adoption of advanced analytics solutions across industries. The region's commitment to innovation and technological advancement is further supported by substantial investments in R&D activities. Additionally, Europe is anticipated to witness significant growth, influenced by stringent regulatory frameworks and a heightened focus on data privacy and security. In contrast, the Asia Pacific region is projected to demonstrate the highest growth rate, attributed to the rapid digital transformation and increasing investments in smart city projects across emerging economies like India and China.

Component Analysis

The location intelligence analytics market is broadly segmented into software and services. Software solutions are a critical component of this market, offering the necessary tools and platforms for collecting, analyzing, and visualizing geographic data. These software solutions are designed to process large volumes of spatial data, integrate various data sources, and provide users with intuitive and interactive interfaces for data exploration. The advancements in cloud computing and the increasing adoption of Software as a Service (SaaS) models are further driving the demand for location intelligence software, as they offer greater scalability, flexibility, and cost-effectiveness to organizations of all sizes.

Within the software segment, Geographic Information System (GIS) solutions are particularly prominent. GIS technology enables the mapping and analysis of spatial data, allowing users to visualize relationships, patterns, and trends in complex datasets. The ability to integrate GIS with other enterprise systems, such as Customer Relationship Management (CRM) and Enterprise Resource Planning (ERP), enhances its ut

Set Visualization Tools Market Outlook

According to our latest research, the global set visualization tools market size reached USD 3.6 billion in 2024, with a robust year-over-year growth driven by the surging demand for advanced data analysis and visualization solutions across industries. The market is projected to expand at a CAGR of 11.7% from 2025 to 2033, reaching a forecasted value of USD 10.1 billion by 2033. This remarkable growth trajectory is primarily attributed to the increasing adoption of big data analytics, artificial intelligence, and digital transformation initiatives among enterprises, government bodies, and academic institutions worldwide.

One of the primary growth factors for the set visualization tools market is the escalating volume, velocity, and variety of data generated across sectors such as business intelligence, scientific research, and education. Organizations are increasingly recognizing the value of transforming complex, multidimensional datasets into intuitive, interactive visual representations to facilitate better decision-making, uncover hidden insights, and drive operational efficiency. The proliferation of IoT devices, cloud computing, and advanced analytics platforms has further amplified the need for sophisticated set visualization tools that can seamlessly integrate with existing data ecosystems, enabling users to analyze relationships, intersections, and trends within large, heterogeneous datasets.

Another significant driver propelling the market growth is the rapid digitalization of enterprises and the growing emphasis on data-driven strategies. Businesses are leveraging set visualization tools to enhance their business intelligence capabilities, monitor key performance indicators, and gain a competitive edge in an increasingly data-centric landscape. These tools empower organizations to visualize overlaps, gaps, and anomalies in data sets, supporting functions such as market segmentation, customer profiling, and risk management. As companies continue to invest in advanced analytics and visualization solutions, the demand for customizable, scalable, and user-friendly set visualization platforms is poised to witness sustained growth throughout the forecast period.

Furthermore, the integration of artificial intelligence and machine learning algorithms into set visualization tools is revolutionizing the market, enabling automated pattern recognition, predictive analytics, and real-time data exploration. This technological evolution is not only enhancing the accuracy and efficiency of data analysis but also democratizing access to complex analytical capabilities for non-technical users. The growing focus on enhancing user experience, interoperability, and cross-platform compatibility is fostering innovation and differentiation among solution providers, further accelerating market expansion. Additionally, the increasing adoption of remote and hybrid work models is driving demand for cloud-based visualization tools that offer flexibility, scalability, and collaborative features.

From a regional perspective, North America currently dominates the set visualization tools market, accounting for the largest revenue share in 2024, followed closely by Europe and Asia Pacific. The strong presence of leading technology vendors, high digital adoption rates, and significant investments in data analytics infrastructure are key factors underpinning North America's leadership. Meanwhile, Asia Pacific is emerging as the fastest-growing region, fueled by rapid digital transformation, expanding enterprise IT budgets, and a burgeoning ecosystem of startups and academic institutions. As organizations across all regions continue to prioritize data-driven decision-making, the global set visualization tools market is expected to maintain its upward momentum over the coming years.

Component Analysis

The set visualization tools market by component is primarily segmented into software and services, each playing a pivotal role in the overall ecosystem. Software solutions dominate the market, driven by the continuous evolution of visualization platforms that offer advanced features such as dynamic dashboards, drag-and-drop interfaces, and integration with diverse data sources. Vendors are focusing on enhancing the scalability, security, and customization capabilities of their software offerings to cater to the unique requirements of various industries. The growing trend of self-service analytics is further boo

Mass spectrometry (MS) has become the tool of choice for the large scale identification and quantitation of proteins and their post-translational modifications (PTMs). This development has been enabled by powerful software packages for the automated analysis of MS data. While data on PTMs of thousands of proteins can nowadays be readily obtained, fully deciphering the complexity and combinatorics of modification patterns even on a single protein often remains challenging. Moreover, functional investigation of PTMs on a protein of interest requires validation of the localization and the accurate quantitation of its changes across several conditions, tasks that often still require human evaluation. Software tools for large scale analyses are highly efficient but are rarely conceived for interactive, in-depth exploration of data on individual proteins. We here describe MsViz, a web-based and interactive software tool that supports manual validation of PTMs and their relative quantitation in small- and medium-size experiments. The tool displays sequence coverage information, peptide-spectrum matches, tandem MS spectra and extracted ion chromatograms through a single, highly intuitive interface. We found that MsViz greatly facilitates manual data inspection to validate PTM location and quantitate modified species across multiple samples.

High resolution mass spectrometry-based proteomics generates large amounts of data, even in the standard liquid chromatography (LC) – tandem mass spectrometry configuration. Adding an ion mobility dimension vastly increases the acquired data volume, challenging both analytical processing pipelines and especially data exploration by scientists. This has necessitated data aggregation, effectively discarding much of the information present in these rich data sets. Taking trapped ion mobility spectrometry (TIMS) on the quadrupole time of flight platform (Q-TOF) as an example, we developed an efficient indexing scheme that represents all data points as detector arrival times on scales of seconds (LC), milliseconds (TIMS) and microseconds (TOF). In our open source AlphaTims package, data are indexed, accessed and visualized by a combination of tools of the scientific Python ecosystem. We interpret unprocessed data as a sparse 4D matrix and use just in time compilation to machine code with Numba, accelerating our computational procedures by several orders of magnitude while keeping to familiar indexing and slicing notations. For samples with more than six billion detector events a modern laptop can load and index raw data in about a minute. Loading is even faster when AlphaTims has already saved indexed data in a HDF5 file, a portable scientific standard used in extremely large-scale data acquisition. Subsequently, data accession along any dimension and interactive visualization happen in milliseconds. We have found AlphaTims to be a key enabling tool to explore high dimensional LC-TIMS-Q-TOF data and have made it freely available as an open-source Python package with a stand-alone graphical user interface at https://github.com/MannLabs/alphatims or as part of the AlphaPept framework.

Techsalerator’s Business Technographic Data for Iran: Unlocking Insights into Iran's Technology Landscape

Techsalerator’s Business Technographic Data for Iran offers a comprehensive and detailed dataset crucial for businesses, market analysts, and technology vendors aiming to understand and engage with companies operating in Iran. This dataset provides in-depth insights into the technological environment, capturing and organizing information related to technology stacks, digital tools, and IT infrastructure used by businesses across the country.

Please reach out to us at info@techsalerator.com or visit Techsalerator Contact.

Top 5 Most Utilized Data Fields

• Company Name: This field lists the names of companies in Iran, allowing technology vendors to identify potential clients and enabling analysts to assess technology adoption trends within specific businesses.

• Technology Stack: This field details the technologies and software solutions utilized by a company, such as ERP systems, CRM software, and cloud services. Understanding a company's technology stack is crucial for evaluating its digital maturity and operational requirements.

• Deployment Status: This field indicates whether the technology is currently in use, planned for future implementation, or under evaluation. Vendors can use this information to gauge the level of technology adoption and interest among companies in Iran.

• Industry Sector: This field specifies the industry in which the company operates, such as oil and gas, manufacturing, or finance. Knowledge of the industry helps vendors tailor their products to sector-specific needs and emerging trends in Iran.

• Geographic Location: This field identifies the company's headquarters or primary operations within Iran. Geographic information supports regional analysis and helps understand localized technology adoption patterns across the country.

Top 5 Technology Trends in Iran

• Oil and Gas Technology: Given Iran's significant role in the global oil and gas industry, there is a strong focus on advanced technologies such as exploration and production tools, seismic analysis software, and energy management systems.

• Fintech Innovations: The financial technology sector is experiencing rapid growth, with businesses adopting digital payment solutions, mobile banking apps, and blockchain technologies to enhance financial transactions and services.

• E-commerce Growth: The e-commerce sector in Iran is expanding, with companies increasingly leveraging online marketplaces, digital payment gateways, and logistics technology to improve customer reach and operational efficiency.

• Cybersecurity: With the rise in digital transactions and online activities, there is a heightened emphasis on cybersecurity. Companies in Iran are investing in data protection solutions, encryption technologies, and secure communication systems to protect against cyber threats.

• Smart Manufacturing: The push towards Industry 4.0 is evident in Iran, with companies adopting smart manufacturing technologies such as IoT-enabled machinery, automated production systems, and advanced data analytics to enhance operational efficiency.

Top 5 Companies with Notable Technographic Data in Iran

• National Iranian Oil Company (NIOC): As a major player in the oil and gas sector, NIOC utilizes advanced exploration and production technologies, digital asset management, and energy management solutions.

• Bank Melli Iran: A leading financial institution, Bank Melli Iran is implementing digital banking services, mobile apps, and fintech solutions to enhance customer experience and streamline operations.

• Digikala: Iran's largest e-commerce platform, Digikala, leverages sophisticated online shopping technologies, digital payment systems, and logistics solutions to serve a growing customer base.

• Iran Telecommunications Company (TCI): TCI plays a critical role in providing telecommunication services, focusing on expanding its network infrastructure, improving connectivity, and investing in next-generation technologies.

• Khorasan Industrial Group: A significant player in the manufacturing sector, Khorasan Industrial Group is adopting smart manufacturing technologies, automation, and data analytics to optimize production processes and improve product quality.

Accessing Techsalerator’s Business Technographic Data

For those interested in accessing Techsalerator’s Business Technographic Data for Iran, please contact info@techsalerator.com with your specific requirements. Techsalerator offers customized quotes based on the number of data fields and records needed, with datasets available for delivery within 24 hours. Ongoing access options can also be arranged upon request.

Included Data Fields

• Company Name
• Technology Stack
• Deployment Status
• Ind...

International Journal of Engineering and Advanced Technology Acceptance Rate - ResearchHelpDesk - International Journal of Engineering and Advanced Technology (IJEAT) is having Online-ISSN 2249-8958, bi-monthly international journal, being published in the months of February, April, June, August, October, and December by Blue Eyes Intelligence Engineering & Sciences Publication (BEIESP) Bhopal (M.P.), India since the year 2011. It is academic, online, open access, double-blind, peer-reviewed international journal. It aims to publish original, theoretical and practical advances in Computer Science & Engineering, Information Technology, Electrical and Electronics Engineering, Electronics and Telecommunication, Mechanical Engineering, Civil Engineering, Textile Engineering and all interdisciplinary streams of Engineering Sciences. All submitted papers will be reviewed by the board of committee of IJEAT. Aim of IJEAT Journal disseminate original, scientific, theoretical or applied research in the field of Engineering and allied fields. dispense a platform for publishing results and research with a strong empirical component. aqueduct the significant gap between research and practice by promoting the publication of original, novel, industry-relevant research. seek original and unpublished research papers based on theoretical or experimental works for the publication globally. publish original, theoretical and practical advances in Computer Science & Engineering, Information Technology, Electrical and Electronics Engineering, Electronics and Telecommunication, Mechanical Engineering, Civil Engineering, Textile Engineering and all interdisciplinary streams of Engineering Sciences. impart a platform for publishing results and research with a strong empirical component. create a bridge for a significant gap between research and practice by promoting the publication of original, novel, industry-relevant research. solicit original and unpublished research papers, based on theoretical or experimental works. Scope of IJEAT International Journal of Engineering and Advanced Technology (IJEAT) covers all topics of all engineering branches. Some of them are Computer Science & Engineering, Information Technology, Electronics & Communication, Electrical and Electronics, Electronics and Telecommunication, Civil Engineering, Mechanical Engineering, Textile Engineering and all interdisciplinary streams of Engineering Sciences. The main topic includes but not limited to: 1. Smart Computing and Information Processing Signal and Speech Processing Image Processing and Pattern Recognition WSN Artificial Intelligence and machine learning Data mining and warehousing Data Analytics Deep learning Bioinformatics High Performance computing Advanced Computer networking Cloud Computing IoT Parallel Computing on GPU Human Computer Interactions 2. Recent Trends in Microelectronics and VLSI Design Process & Device Technologies Low-power design Nanometer-scale integrated circuits Application specific ICs (ASICs) FPGAs Nanotechnology Nano electronics and Quantum Computing 3. Challenges of Industry and their Solutions, Communications Advanced Manufacturing Technologies Artificial Intelligence Autonomous Robots Augmented Reality Big Data Analytics and Business Intelligence Cyber Physical Systems (CPS) Digital Clone or Simulation Industrial Internet of Things (IIoT) Manufacturing IOT Plant Cyber security Smart Solutions – Wearable Sensors and Smart Glasses System Integration Small Batch Manufacturing Visual Analytics Virtual Reality 3D Printing 4. Internet of Things (IoT) Internet of Things (IoT) & IoE & Edge Computing Distributed Mobile Applications Utilizing IoT Security, Privacy and Trust in IoT & IoE Standards for IoT Applications Ubiquitous Computing Block Chain-enabled IoT Device and Data Security and Privacy Application of WSN in IoT Cloud Resources Utilization in IoT Wireless Access Technologies for IoT Mobile Applications and Services for IoT Machine/ Deep Learning with IoT & IoE Smart Sensors and Internet of Things for Smart City Logic, Functional programming and Microcontrollers for IoT Sensor Networks, Actuators for Internet of Things Data Visualization using IoT IoT Application and Communication Protocol Big Data Analytics for Social Networking using IoT IoT Applications for Smart Cities Emulation and Simulation Methodologies for IoT IoT Applied for Digital Contents 5. Microwaves and Photonics Microwave filter Micro Strip antenna Microwave Link design Microwave oscillator Frequency selective surface Microwave Antenna Microwave Photonics Radio over fiber Optical communication Optical oscillator Optical Link design Optical phase lock loop Optical devices 6. Computation Intelligence and Analytics Soft Computing Advance Ubiquitous Computing Parallel Computing Distributed Computing Machine Learning Information Retrieval Expert Systems Data Mining Text Mining Data Warehousing Predictive Analysis Data Management Big Data Analytics Big Data Security 7. Energy Harvesting and Wireless Power Transmission Energy harvesting and transfer for wireless sensor networks Economics of energy harvesting communications Waveform optimization for wireless power transfer RF Energy Harvesting Wireless Power Transmission Microstrip Antenna design and application Wearable Textile Antenna Luminescence Rectenna 8. Advance Concept of Networking and Database Computer Network Mobile Adhoc Network Image Security Application Artificial Intelligence and machine learning in the Field of Network and Database Data Analytic High performance computing Pattern Recognition 9. Machine Learning (ML) and Knowledge Mining (KM) Regression and prediction Problem solving and planning Clustering Classification Neural information processing Vision and speech perception Heterogeneous and streaming data Natural language processing Probabilistic Models and Methods Reasoning and inference Marketing and social sciences Data mining Knowledge Discovery Web mining Information retrieval Design and diagnosis Game playing Streaming data Music Modelling and Analysis Robotics and control Multi-agent systems Bioinformatics Social sciences Industrial, financial and scientific applications of all kind 10. Advanced Computer networking Computational Intelligence Data Management, Exploration, and Mining Robotics Artificial Intelligence and Machine Learning Computer Architecture and VLSI Computer Graphics, Simulation, and Modelling Digital System and Logic Design Natural Language Processing and Machine Translation Parallel and Distributed Algorithms Pattern Recognition and Analysis Systems and Software Engineering Nature Inspired Computing Signal and Image Processing Reconfigurable Computing Cloud, Cluster, Grid and P2P Computing Biomedical Computing Advanced Bioinformatics Green Computing Mobile Computing Nano Ubiquitous Computing Context Awareness and Personalization, Autonomic and Trusted Computing Cryptography and Applied Mathematics Security, Trust and Privacy Digital Rights Management Networked-Driven Multicourse Chips Internet Computing Agricultural Informatics and Communication Community Information Systems Computational Economics, Digital Photogrammetric Remote Sensing, GIS and GPS Disaster Management e-governance, e-Commerce, e-business, e-Learning Forest Genomics and Informatics Healthcare Informatics Information Ecology and Knowledge Management Irrigation Informatics Neuro-Informatics Open Source: Challenges and opportunities Web-Based Learning: Innovation and Challenges Soft computing Signal and Speech Processing Natural Language Processing 11. Communications Microstrip Antenna Microwave Radar and Satellite Smart Antenna MIMO Antenna Wireless Communication RFID Network and Applications 5G Communication 6G Communication 12. Algorithms and Complexity Sequential, Parallel And Distributed Algorithms And Data Structures Approximation And Randomized Algorithms Graph Algorithms And Graph Drawing On-Line And Streaming Algorithms Analysis Of Algorithms And Computational Complexity Algorithm Engineering Web Algorithms Exact And Parameterized Computation Algorithmic Game Theory Computational Biology Foundations Of Communication Networks Computational Geometry Discrete Optimization 13. Software Engineering and Knowledge Engineering Software Engineering Methodologies Agent-based software engineering Artificial intelligence approaches to software engineering Component-based software engineering Embedded and ubiquitous software engineering Aspect-based software engineering Empirical software engineering Search-Based Software engineering Automated software design and synthesis Computer-supported cooperative work Automated software specification Reverse engineering Software Engineering Techniques and Production Perspectives Requirements engineering Software analysis, design and modelling Software maintenance and evolution Software engineering tools and environments Software engineering decision support Software design patterns Software product lines Process and workflow management Reflection and metadata approaches Program understanding and system maintenance Software domain modelling and analysis Software economics Multimedia and hypermedia software engineering Software engineering case study and experience reports Enterprise software, middleware, and tools Artificial intelligent methods, models, techniques Artificial life and societies Swarm intelligence Smart Spaces Autonomic computing and agent-based systems Autonomic computing Adaptive Systems Agent architectures, ontologies, languages and protocols Multi-agent systems Agent-based learning and knowledge discovery Interface agents Agent-based auctions and marketplaces Secure mobile and multi-agent systems Mobile agents SOA and Service-Oriented Systems Service-centric software engineering Service oriented requirements engineering Service oriented architectures Middleware for service based systems Service discovery and composition Service level

Dados coletados de empresas de software brasileiras com relação a exploration, exploitation e desempenho.

The Imager for Magnetosphere-to-Aurora Global Exploration (IMAGE) mission produced the first comprehensive global images of the plasma populations in the inner magnetosphere.

IMAGE data are archived at NASA/GSFC National Space Science Data Center (NSSDC) and at the Southwest Research Institute (SWRI). Data from all instruments on the IMAGE spacecraft are accessible from NSSDC and SWRI through &IMAGE Archive& client-server software. The data are low-processing-level data in Universal Data Format (UDF) as generated at and provided by the IMAGE Science Management Operations Center at GSFC. Users must access and install client software on their own computers prior to data access.

Users should go to http://image.gsfc.nasa.gov/ for an overview of the IMAGE science, data and software environment. They should then follow the IMAGE software archive link (http://image.msfc.nasa.gov/) for documentation needed to download,install, and configure the client software. The client software is a set of tools that allow the user to maintain a local collection of IMAGE data, automatically

Data archived include all instrument level 0 data, imagery, low-resolution and high-resolution data. Data from NSSDC are available via ftp and data from SWRI are available via an interactive data delivery system: http://www.shef.ac.uk/appliedmaths/manual/image.pdf

The IMAGE project has an open data policy. There are no proprietary data or periods.

TAASRAD19 (Trentino-Alto Adige/Südtirol Radar 2019) is a high-resolution radar reflectivity dataset collected by the Civil Protection weather radar of the Trentino South Tyrol Region, in the Italian Alps. The dataset includes 894,916 time steps of precipitation from more than 9 years of data, offering a novel resource to develop and benchmark analog ensemble models and machine learning solutions for precipitation nowcasting. Data are expressed as 2D images, considering the maximum reflectivity on the vertical section and 5 minutes sampling rate, covering an area of 240km of diameter at 500m horizontal resolution. The TAASRAD19 distribution also includes a curated set of 1,732 sequences, for a total of 362,233 radar images, labeled with precipitation type tags assigned by expert meteorologists. We validated TAASRAD19 as a benchmark for nowcasting using deep learning model to forecast reflectivity and a procedure based on the UMAP dimensionality reduction method for interactive exploration. Software methods for data pre-processing, model training and inference, and a pre-trained model are publicly available at https://github.com/MPBA/TAASRAD19 for replication and reproducibility.

TAASRAD19 (Trentino-Alto Adige/Südtirol Radar 2019) is a high-resolution radar reflectivity dataset collected by the Civil Protection weather radar of the Trentino South Tyrol Region, in the Italian Alps. The dataset includes 894,916 scans of precipitation from more than 9 years of data, offering a novel resource to develop and benchmark analog ensemble models and machine learning solutions for precipitation nowcasting. Data are expressed as 2D images, considering the maximum reflectivity on the vertical section and 5 minutes sampling rate, covering an area of 240km of diameter at 500m horizontal resolution. The TAASRAD19 distribution also includes a curated set of 1,732 sequences, for a total of 362,233 radar images, labeled with precipitation type tags assigned by expert meteorologists. We validated TAASRAD19 as a benchmark for nowcasting using deep learning model to forecast reflectivity and a procedure based on the UMAP dimensionality reduction method for interactive exploration. Software methods for data pre-processing, model training and inference, and a pre-trained model are publicly available at https://github.com/MPBA/TAASRAD19 for replication and reproducibility.

As a machine-learned potential, the neuroevolution potential (NEP) method features exceptional computational efficiency and has been successfully applied in materials science. Constructing high-quality training datasets is crucial for developing accurate NEP models. However, the preparation and screening of NEP training datasets remain a bottleneck for broader applications due to their time-consuming, labor-intensive, and resource-intensive nature. In this work, we have developed NepTrain and NepTrainKit, which are dedicated to initializing and managing training datasets to generate high-quality training sets while automating NEP model training. NepTrain is an open-source Python package that features a bond length filtering method to effectively identify and remove non-physical structures from molecular dynamics trajectories, thereby ensuring high-quality training datasets. NepTrainKit is a graphical user interface (GUI) software designed specifically for NEP training datasets, providing functionalities for data editing, visualization, and interactive exploration. It integrates key features such as outlier identification, farthest-point sampling, non-physical structure detection, and configuration type selection. The combination of these tools enables users to process datasets more efficiently and conveniently. Using CSPbI3 as a case study, we demonstrate the complete workflow for training NEP models with NepTrain and further validate the models through materials property predictions. We believe this toolkit will greatly benefit researchers working with machine learning interatomic potentials.

In biomedical studies the patients are often evaluated numerous times and a large number of variables are recorded at each time-point. Data entry and manipulation of longitudinal data can be performed using spreadsheet programs, which usually include some data plotting and analysis capabilities and are straightforward to use, but are not designed for the analyses of complex longitudinal data. Specialized statistical software offers more flexibility and capabilities, but first time users with biomedical background often find its use difficult. We developed medplot, an interactive web application that simplifies the exploration and analysis of longitudinal data. The application can be used to summarize, visualize and analyze data by researchers that are not familiar with statistical programs and whose knowledge of statistics is limited. The summary tools produce publication-ready tables and graphs. The analysis tools include features that are seldom available in spreadsheet software, such as correction for multiple testing, repeated measurement analyses and flexible non-linear modeling of the association of the numerical variables with the outcome. medplot is freely available and open source, it has an intuitive graphical user interface (GUI), it is accessible via the Internet and can be used within a web browser, without the need for installing and maintaining programs locally on the user’s computer. This paper describes the application and gives detailed examples describing how to use the application on real data from a clinical study including patients with early Lyme borreliosis.

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