Hi dee! i know you said you hate talking about your major, but im going to college this year and I'm scared to go to architecture school 🥲 I want it really bad, but the way people talk about it makes it very unappealing 🥲

hi anon!!!!!!!!! ok ok so this probs going to be a long post, and I advise u to read every single sentencejzhsksb (under the cut)

ok so first of all, where i live, architecture school is 5 years + 2 years of internship = min of 7 years, then licensure exam. that is a VERY, VERY and i repeat VERY long time. and thats only undergrad.

architecture is a creative program, meaning u dont necessarily "study" to get by. there are a lot of theoretical courses ofc, and technically, u still need to study (and read a TON of books to know about design principles and standards and laws) but application takes up 90% of it. in archi school, u need not only to be creative, but u have to be strategic, technical, and be purposeful in everything u do bcs its a fusion of science+arts after all (im not kidding. instructors would cook u to hell when ur design is "perfectly technical" but NOT creative, but they will also stone you if it's "too pretty" but u cant provide a clear cut answer to a certain something's mechanism).

now heres the biggest con to me: in order to survive it you will genuinely have to give up a lot of time. deadlines are given to u upon deadlines. ur only lucky enough if ur prof is one of those angels from heavens above whos considerate enough, but theyre very rare (per my experience). drawing = solving problems, and in this program you NEVER stop solving problems. its very draining tbh, bcs every week is a 7-day stay in the deepest pits of hell of ✨conceptualization✨ . i know no one, and i mean no one in my program who has a regular sleeping schedule, and even the most excellent time manager will sacrifice sleep in deadline week (which is every week 🤩) you will get to miss out on hangs with friends, family vacays and the likes bcs submissions just wouldnt stop. also, college is the reason why i started drinking coffee and energy drink. its unhealthy asf but i gen cant function without it now when i have my exams season. i also discovered i can go on full 48 hrs without a wink of sleep which is. AGAIN. unhealthy as fawk. , you will really have to toughen up your heart bcs the profs will always be honest and wouldnt hesitate to tell u to revise your work, no matter how much u think it's ok enough. they will keep telling u to revise until theyre satisfied lol.

another con is that its expensive as HELL. im very lucky im getting by on scholarships and i get allowances from them BUT i literally cannot imagine spending my familys money on all the things ive lent to this program 😭 when ur in first year u will still have to go manual so if u do not have the art supplies necessary, you'll have to buy them and again. THEY ARE EXPENSIVE AS HELL. and it doesnt end there bcs scale modeling goes on forever and its no joke. the materials are hard to fine (at least here) and their prices are ridiculous. then during higher years, you'll have to invest in a high-spec laptop (like gaming laptops) that will not give up on u under heavy use nvs ull be using a lot of software (that ur prods dont even teach you to work with 🤩 theyll jsut drop an instruction saying do this project in archicad and boom ur deep on 456 youtube tutorials which makes u question their existence in the first place but ANYWAY.

on the brightside tho.... its very very fulfilling, this major. architecture plays such an important role in our daily lives and it would feel really rad if we can be a part of that #beautiful thing. seeing the end of every project also pays back by teaching u handful of things. i also enjoy it when we get the chance to explore different building types like for instance my fave project i ever did was when we designed a physical rehabilitation center. ive never been in one before that but we got to explore it thanks to the project. also, you get to know people bcs u have and u WILL want to cater to their needs and wants – and as a girlie who wished she majored in psych thats the thing i love the most about architecture!!! it all boils down to people, how they move within and around space, and how u can help shape a beautiful & nice experience for them. its just a very very very interesting field

thing is, u need to be really dedicated if u want to go to archi school and survive. u have to be passionate abt it to push thru. if ur not really that sure abt it, i advice going against it lol. its just not worth it if its not smth u actually and really want (take that from me plsssjbsjxhsjwh). but if u really want to, then go! but just be really careful with that decision anon :')

anywhoo, good luck on college!!!!!!! may u go with what's in your heart 💗💗💗

Harrison.ai raises $112 million to expand AI-powered medical diagnostics globally

- By InnoNurse Staff -

Harrison.ai, a Sydney, Australia-based startup, develops AI-powered diagnostic software for radiology and pathology to enhance disease detection and streamline workflows for healthcare professionals.

The company recently secured $112 million in Series C funding to expand internationally, with plans to establish a presence in Boston.

Founded in 2018 by brothers Dr. Aengus Tran and Dimitry Tran, Harrison.ai has launched Annalise.ai for radiology and Franklin.ai for pathology, aiming to address global clinician shortages and improve patient outcomes. Its products are deployed in over 1,000 healthcare facilities across 15 countries, with regulatory clearance in 40 markets, including 12 FDA approvals in the U.S.

The startup differentiates itself from competitors like Aidoc and Rad AI through its broader diagnostic capabilities and extensive datasets. Its AI models detect lung cancer earlier and outperform standard radiology exams. With its latest funding, Harrison.ai plans to expand AI automation beyond radiology and pathology.

Read more at TechCrunch

///

Other recent news and insights

Advanced imaging and AI detect smoking-related toxins in placenta samples (Rice University/Medical Xpress)

Study suggests AI may outperform humans in analyzing long-term ECG recordings (Lund University)

Choosing the Right Software Development Model for Your Project

When planning a new software project, one of the most critical decisions is selecting the right development approach. Whether you're building a web app, desktop tool, or mobile solution, your choice of model can significantly affect the outcome. Most businesses today rely on expert software development services to ensure that their process is both efficient and adaptable to changing requirements. But before you dive in, it's essential to understand which development methodology suits your project best.

🔄 Common Software Development Models

1. Waterfall Model

This traditional model follows a linear sequence — from requirements to design, development, testing, and deployment. It's best for projects with well-defined goals and minimal expected changes. However, it lacks flexibility once a phase is complete.

2. Agile Model

Agile is highly popular for modern software projects. It emphasizes iterative progress, constant feedback, and flexibility. Agile is ideal when the scope might evolve during development or when fast delivery of a minimum viable product (MVP) is required.

3. Scrum Framework

A type of Agile, Scrum breaks the work into small, manageable sprints. Regular reviews and team collaboration keep the project on track. It’s best for dynamic projects with cross-functional teams.

4. DevOps Model

DevOps focuses on the integration of development and operations, using automation and continuous integration/continuous deployment (CI/CD) pipelines. This model is excellent for large-scale, cloud-based projects needing rapid releases and stability.

5. Rapid Application Development (RAD)

RAD prioritizes quick prototyping over strict planning. It’s suitable for projects with a tight timeline, especially when users are involved closely throughout development.

🧠 How to Choose the Right Model?

Project Size and Complexity: Larger, complex systems may benefit from Agile or DevOps, while small, clearly defined projects might do well with Waterfall.

Client Involvement: If ongoing feedback is expected, Agile or Scrum is preferred.

Timeline: RAD works well under tight deadlines; Waterfall may not.

Budget Flexibility: Agile models allow better cost control over time.

Team Structure: Cross-functional and collaborative teams work best with Agile or DevOps.

Choosing the correct model sets the foundation for success. It affects timelines, budget, team collaboration, and client satisfaction.

Partnering with an experienced software development company can help you assess your project requirements and recommend the ideal development methodology to ensure a smooth and successful delivery.

Enterprise Application Platform: Future Trends and Innovations

The Enterprise Application Platform (EAP) landscape is constantly evolving, driven by technological advancements and changing business needs. Understanding the future trends and innovations in this area is crucial for businesses looking to stay competitive and maximize the benefits of their EAP investments.

Key Future Trends

AI and Machine Learning (AI/ML) Integration: AI and ML are increasingly being integrated into EAPs to automate tasks, improve decision-making, and personalize user experiences.

Low-Code/No-Code Development: These platforms enable citizen developers to build and deploy applications quickly, reducing the reliance on traditional coding and accelerating digital transformation.

Cloud-Native Architecture: EAPs are increasingly being built on cloud-native architectures, leveraging microservices, containers, and serverless computing to improve scalability, flexibility, and resilience.

Edge Computing: Bringing processing closer to the data source, edge computing enables faster response times and improved performance for IoT devices and other edge applications.

Internet of Things (IoT) Integration: EAPs are becoming more adept at integrating with IoT devices, enabling businesses to collect and analyze data from a wider range of sources.

Microservices Architecture: This architectural style allows for the development of applications as a collection of small, independent services, improving flexibility and maintainability.

Serverless Computing: This model allows developers to build and run applications without managing servers, reducing operational overhead and improving scalability.

Enhanced Security: With increasing cyber threats, EAPs are incorporating advanced security features to protect sensitive business data and ensure compliance with industry regulations.

Impact on Businesses

These future trends will have a significant impact on businesses, enabling them to:

Automate complex processes: AI/ML will automate tasks that were previously done manually, freeing up employees for more strategic work.

Develop applications faster: Low-code/no-code platforms will accelerate the development and deployment of new applications.

Improve scalability and flexibility: Cloud-native architectures will allow businesses to scale their applications easily and adapt to changing demands.

Gain real-time insights: Edge computing and IoT integration will provide businesses with access to real-time data from a wider range of sources.

Enhance security: Advanced security features will protect sensitive business data and ensure compliance.

Conclusion

The future of Enterprise Application Platforms is exciting, with numerous innovations on the horizon. By understanding these trends and adopting the right technologies, businesses can transform their operations, improve efficiency, and achieve sustainable growth in the years to come.

Ai Auto code

AI Wave maker

Rapid low code application development platform

Low code platform Enterprise software for application development

Low code application development platform or Low code platform for application development

What is Low code app development platforms

Composable low code isvs

Java-based low code platform

Composable isvs

RAD studio-Rapid application development software platform

APAAS-application platform as a service

Cloud Low code application development platform

Legacy application modernization solutions

React-native cross-platform mobile application development platform

Compare Wavemaker vs Outsystems vs mendix vs power apps — low code alternatives and its pricing

New and fast application development platform

Rapid application development model or RAD  model

Low-code for consumable Banking and financial Low-code platform solutions

Internal api vs external apis

Rapid application development vs SDLC Platform

Custom Enterprise low code application development platform

Legacy enterprise application Modernization Platform

Embedded banking and Finance, Low-Code and the Emerging Face of Adaptability

BAAS- Low code Banking as a service

Composable Low code banking solutions

Telecom low code platform

Alternative to Xamarin and Cordova 

Wavemaker Low code

Legacy application modernization platform

Cross-Platform React Native Mobile App Development Platform

Which of the Best Software Development Models for Your Project?

Choosing the right software development model is crucial in the ever-changing realm of software development to ensure project success. A software model outlines the methods, procedures, and structure that direct the development process. The complexity of the project, team organization, budget constraints, and deadlines all influence the selection of the best software development model from the numerous options available

This article explores different types of software engineering models to assist you in understanding their advantages, disadvantages, and relevance to your projects. Many top software development companies leverage these models to enhance efficiency, scalability, and overall project success.

A software model: what is it?

A framework for designing, creating, testing, and maintaining software applications is called a software model. It offers a methodical way to guarantee that the program effectively satisfies user needs. A key factor in determining the development process's success is the choice of software design model.

Software Development Model Types

1. The Waterfall Model

One of the earliest techniques for software development, the Waterfall Model follows a linear and sequential method. Before advancing to the next phase, each of the following needs to be completed: requirement analysis, design, implementation, testing, deployment, and maintenance.

Best for:

Well-defined and stable requirements

Small to medium-sized projects

Projects with minimal changes expected

Pros:

Simple and easy to manage

Clear documentation and structured process

Cons:

Rigid and inflexible to changes

High risk if errors are found late in the process

2. The Agile Model

The Agile Model highlights adaptability, collaboration, and incremental development. It facilitates continuous feedback and enhancements by splitting the project into manageable, short intervals referred to as sprints.

Best for:

Dynamic projects with changing requirements

Large-scale software systems

Customer-driven applications

Pros:

Faster delivery and adaptability

Encourages collaboration and customer feedback

Cons:

Requires constant involvement from stakeholders

Can be challenging to estimate costs and timelines

3. The Validation & Verification Model, or V-Model

Every level of development has a matching testing phase in the V-Model, which is an extension of the Waterfall Model.

Best for:

Critical projects with strict quality requirements

Software requiring rigorous validation

Pros:

High quality and early detection of defects

Well-structured and disciplined approach

Cons:

Expensive and time-consuming

Not flexible for handling changes

4. The Spiral Model

The Spiral Model is perfect for complicated projects with ambiguous needs because it integrates risk analysis and iterative development.

Best for:

Large, high-risk projects

Projects requiring continuous refinement

Pros:

Effective risk management

Allows for iterative prototyping

Cons:

Costly and complex

Requires experienced developers and risk analysts

5. DevOps Model

To improve cooperation, automation, and continuous deployment, the DevOps Model combines development and operations. 

Best for:

Fast-paced projects with frequent updates

Cloud-based applications

Pros:

Faster releases and better efficiency

Improves collaboration between teams

Cons:

Requires a cultural shift in the organization

Needs skilled professionals and automation tools

6. Rapid App Development (RAD) Model

The RAD Model is perfect for projects that require speedy delivery and user input since it emphasizes prototyping and rapid iterations. 

Best for:

Projects with evolving requirements

Short development cycles

Pros:

Faster time-to-market

Encourages user feedback and adaptability

Cons:

Requires skilled developers

Not suitable for complex, large-scale systems

Choosing the Right Software Development Model

The selection of the right software models in software engineering depends on several factors:

Project Size & Complexity: Small projects may benefit from the Waterfall Model, while large projects require Agile or Spiral models.

Flexibility & Requirement Changes: If requirements are expected to change frequently, Agile or RAD is the best choice.

Risk Management Needs: High-risk projects should consider the Spiral Model.

Time and Budget Restrictions: Waterfall is the method of choice for fixed-budget projects, whereas Agile or DevOps are the methods of choice for flexible-budget projects.

Needs for Quality Assurance: The V-Model guarantees a strong emphasis on quality.

To expedite the process, businesses frequently look for software development services in addition to choosing the best software development models. Among these services are:

Custom software development

Web and mobile application development

AI and machine learning solutions

DevOps and cloud computing services

IT consulting and digital transformation

Software maintenance and support

Selecting a trustworthy software development services company can greatly increase project efficiency and guarantee that companies successfully accomplish their objectives.

Every field of life is guided by a set of principles that provide it the required direction. Software designing is also such a field that requires some set of principles to identify the traits and properties of a good design. Principles of object oriented design highlight the factors that should be present in a specific design to attain flexibility, extendibility and mobility in the resulting software application. Five principles of class design have been discussed along with their pros and cons. 1. Introduction A methodology can be defined as a process in which some issues might be addressed regarding an existing system or the approach for building a new system might be discussed. Over the years, there have been many methodologies adapted for the analysis and design of systems. Some of them are Structured Systems Analysis and Design (SSAD), Rapid Application Development (RAD), Object-Oriented Analysis and Design (OOAD). However one of the approaches that are frequently used by developers is object oriented analysis and design. The respective idea was generated in the late 60s when programs and software started getting very complex. Object Mentor.com (2006) stated that the main purpose behind the inception of this concept was to model software on the basis of real-world object. The simplicity of the logic of the object oriented design attracted much attention from the developers and they started accepting it to a great extent. Principles tend to provide a structured format of implementing and understanding something. Object oriented design is also based on some principles that provide the essence of object oriented approach in the software and prove to be a guiding factor in the direction of attaining a good design. The design is the vital image of the software and thus needs to represent all aspects in an effective yet simple manner. Martin (2000) pointed out that a good design will not be rigid or fragile; rigidity will cause the software to become inflexible to changes and fragility will cause the software to break at some places in case of eventual changes in the requirements. Principles tend to keep the software safe from such inconsistencies and constraints. Another aspect that is addressed by the presence of principles is immobility. Immobility is the inability of the software to be reused with other software that results in re-writing. If designs are based on the guiding principles then software can be easily used with other programs and modules. These principles tend to address an important aspect of software programming i.e. dependency management. Dependency management denotes the level of flexibility that can be expected from a program or module. Poor dependency management will denote the fragility, inflexibility to change and incompatibility with other programs thereby reducing the possibility of reuse. Therefore it is very important for the dependency management to be given priority in the development processes. 2. Materials and Methods The literature review has been carried out on the basis of the following methods and materials: Secondary sources: Books, journal articles and white papers related to the area of object oriented design and analysis have been studied. Online and offline articles: Online and offline technological magazines have been studied for the respective research topic and the characteristics of a good design of software. Personal Observation: An extensive analysis was carried out on the basis of personal designing experiences regarding the object oriented approach. The research study began with the basic concept of object oriented design that led to the investigation of the basic principles that govern an object oriented design of software. The limitations and constraints that account for the poor quality of a design were also analyzed. Object oriented design has become an important part of modern software. The applications of object oriented design were investigated that are commonly witnessed in the computer industry. 3. Results Extensive research has been conducted to grasp the true essence of the principles of object oriented designs with the help of the above stated sources. The application of the principles should be done on need basis. Subramaniam (n.d.) also supported the notion and stated in his paper that if the application is not done as a result of some requirement then the design will prove to be complex and difficult to comprehend. Read the full article

Mendix Online Training Course | Mendix Training in Hyderabad

Why Mendix Is Perfect for Rapid Application Development

Mendix Training Traditional software development methods often struggle to keep up with the ever-evolving demands, leading organizations to seek more agile approaches. This is where Mendix, a leading low-code application development platform, shines. By facilitating rapid application development, Mendix empowers enterprises to build, deploy, and iterate applications with unprecedented speed and efficiency.

The Essence of Rapid Application Development

Rapid application development (RAD) is an adaptive software development approach that prioritizes quick prototyping and iterative delivery over traditional planning and testing phases. The core principles of RAD include:

Iterative Development: Building applications in small, functional segments allows for continuous feedback and refinement.

User Involvement: Engaging end-users throughout the development process ensures the final product aligns with their needs.

Component Reusability: Utilizing pre-built components accelerates development and maintains consistency.

Mendix embodies these principles, offering a platform that not only supports but enhances the RAD methodology.

Mendix: A Catalyst for Rapid Development

Several features make Mendix an ideal choice for organizations aiming to accelerate their application development processes:

Visual Development Environment

Mendix's visual modeling tools enable both developers and business users to design applications using intuitive drag-and-drop interfaces. This approach minimizes the need for manual coding, reducing errors and speeding up the development cycle. By abstracting complex code into visual models, Mendix democratizes application development, allowing a broader range of stakeholders to participate actively.

Comprehensive Application Lifecycle Support

From ideation to deployment, Mendix offers tools that streamline each phase of the application lifecycle. This holistic support ensures that applications are developed swiftly and maintained effectively, aligning with the dynamic needs of businesses.

Seamless Collaboration Between IT and Business

Mendix fosters a collaborative environment where IT professionals and business stakeholders work in unison. Features like integrated project management and real-time feedback loops ensure that applications meet business objectives and user expectations.

Openness and Extensibility

Recognizing the diverse needs of modern enterprises, Mendix Online Training provides openness and extensibility, allowing integration with existing systems and the incorporation of custom code when necessary. This flexibility ensures that applications built on Mendix can evolve alongside organizational requirements.

Embracing the Latest Trends and Updates

Mendix continually evolves to meet the growing demands of the software development landscape. Notable recent updates include:

Mendix 10.18 Release (January 16, 2025): This version introduced AI-driven enhancements across the software development lifecycle, making application development more accessible and efficient. The integration of AI capabilities assists developers in automating routine tasks and provides intelligent recommendations, thereby accelerating the development process.

Mendix 10.19 Release (February 2025): Building upon its predecessor, this release introduced view entities, enabling the creation of more performant applications and enhancing the developer experience. Additionally, it offered support for connecting to any database, mixing online and offline data for mobile applications, and numerous AI improvements.

Mendix 10.20 Release (February 26, 2025): The latest update brought powerful enhancements to streamline development, including the ability to instantly convert microflows to nanoflows (and vice versa), a new custom chart feature, and improved data filtering with combo box-style drop-downs.

AI Integration: A Leap Towards Intelligent Development

The incorporation of artificial intelligence into Mendix's platform signifies a monumental shift towards intelligent application development. The Mendix ML Kit bridges the gap between AI frameworks and low-code development, enabling enterprises to deliver ML-enhanced smart applications faster and more efficiently than ever before. This integration allows developers to embed AI models directly into applications without relying on third-party services, ensuring data security and reducing latency.

Performance Optimization and Developer Experience

The introduction of view entities in Mendix 10.19 has significantly improved application performance, especially when dealing with large datasets. By allowing developers to define queries that behave like persistent entities, view entities simplify the handling of complex data structures, resulting in up to a tenfold increase in data grid performance. This enhancement not only boosts application responsiveness but also streamlines the development process, allowing developers to focus on delivering value.

Flexibility in Data Integration

Modern applications often need to interact with multiple data sources. Mendix's support for connecting to any database provides developers with the flexibility to integrate various data sources seamlessly. This capability ensures that applications can access and manipulate data from diverse systems, enhancing their functionality and relevance in complex IT environments.

Conclusion

In an era where speed and adaptability are paramount, Mendix stands out as a platform that embodies the principles of rapid application development. Its visual development environment, comprehensive lifecycle support, and commitment to openness and extensibility make it a versatile tool for modern enterprises. The continuous integration of cutting-edge features, such as AI-driven enhancements and performance optimizations, ensures that Mendix remains at the forefront of application development platforms. For organizations seeking to innovate and respond swiftly to market demands, embracing Mendix is a strategic move towards achieving agility and sustained success.

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Europe Point-of-Care Molecular Diagnostics Market Segments, Opportunities, Regional Forecast To 2028

Market Introduction

Point-of-care molecular diagnostics include portable devices, and assays & kits used to detect and diagnose diseases in human samples, such as throat swab, blood, serum, and stool. Molecular diagnostics are shifting from centralized laboratories to decentralized point-of-care molecular testing. Due to its simplicity, convenience, rapid turnaround time, and potential to improve patient outcomes, POCT is rapidly gaining traction.

Moreover, the growing demand for specific viral detection methods that consume less time for timely infection control is expected to bolster the market growth during the forecast period.

📚 𝐃𝐨𝐰𝐧𝐥𝐨𝐚𝐝 𝐒𝐚𝐦𝐩𝐥𝐞 𝐏𝐃𝐅 𝐂𝐨𝐩𝐲@ https://www.businessmarketinsights.com/sample/TIPRE00026190

In Europe, currently, the UK and Russia are the hardest-hit countries by the COVID-19 pandemic, followed by France, Spain, Italy, and Germany. The implementation of drastic measures and travel restrictions, including closing the borders, impacted the import and export of products, especially in the first half of 2020. The continuous spread of the disease has led to an elevated demand for advanced diagnostic solutions in Europe, thus boosting the adoption of point-of-care molecular diagnostic kits. Moreover, uninterrupted investments and business activities by industry players are also boosting the point-of-care molecular diagnostic market growth. In 2020, European Medicines Agency (EMA) approved ~97 medicines for the marketing authorization, of which 39 were novel drugs. In October 2020, Eurofins introduced PCR-based COVID-19 diagnostic tests with at-home, self-sampling options, in the for European market. In January 2020, European Union (EU) commission announced an emergency call, through which it awarded US$ 55.64 million to 18 research projects. Among these, 3 of the projects are receiving a total of US$ 7.39 million to develop effective, rapid point-of-care diagnostics.

📚𝐅𝐮𝐥𝐥 𝐑𝐞𝐩𝐨𝐫𝐭 𝐋𝐢𝐧𝐤 @ https://www.businessmarketinsights.com/reports/europe-point-of-care-molecular-diagnostics-market

𝐓𝐡𝐞 𝐋𝐢𝐬𝐭 𝐨𝐟 𝐂𝐨𝐦𝐩𝐚𝐧𝐢𝐞𝐬

bioMérieux SA

F. Hoffmann-La Roche Ltd.

Danaher Corporation

Enzo Biochem, Inc.

Abbott

binx health, Inc.

Meridian BioScience, Inc.

Biocartis

Quidel Corporation

Bio-Rad Laboratories, Inc

Segments Covered

By Product & Services

Assays and Kits

Instruments

Services and Software

By Technology

PCR

Isothermal Nucleic Acid Amplification Technology

Other Technologies

By Application

Infectious Diseases

Oncology

Hematology

Prenatal Testing

Endocrinology

Other Applications

By End User

Hospitals and Clinics

Diagnostic Laboratories

Research and Academic Institutes

The Digital Health Revolution and Consumer Empowerment:

The proliferation of connected consumer electronic devices, particularly smartphones and wearables, has fundamentally altered the healthcare landscape. European consumers are increasingly tech-savvy and demand seamless, integrated healthcare experiences.

This "digital health revolution" empowers individuals to actively participate in their own health management. They expect real-time data, immediate access to information, and convenient diagnostic solutions.

The integration of POC MDx with mobile platforms allows for the secure transmission of diagnostic data, enabling remote monitoring and personalized healthcare interventions.

Decentralization of Diagnostics and Enhanced Accessibility:

The traditional model of centralized laboratory testing is being challenged by the need for faster, more accessible diagnostic solutions. POC MDx devices bring molecular diagnostics closer to the patient, enabling testing in diverse settings, including clinics, pharmacies, and even homes.

This decentralization is particularly crucial in addressing healthcare disparities in remote and underserved areas of Europe. It reduces the burden on centralized laboratories and minimizes patient wait times.

The rise of telemedicine also enhances this dynamic. Remote doctors appointments become much more valuable when the patient has access to at home testing.

The Emergence of Home-Based Molecular Diagnostics:

The demand for convenient and discreet diagnostic solutions is driving the growth of home-based POC MDx.

Manufacturers are focusing on developing user-friendly, portable, and affordable devices that can be easily operated by laypersons.

This trend is particularly relevant in the context of chronic disease management, infectious disease surveillance, and personalized medicine.

The privacy given by at home testing is also a large driving factor.

Technological Innovation and Miniaturization:

Advancements in microfluidics, nanotechnology, and molecular biology are enabling the development of highly sensitive and specific POC MDx devices.

Miniaturization and automation are key trends, allowing for the integration of complex diagnostic assays into compact, user-friendly platforms.

Multiplexing capabilities, which enable the simultaneous detection of multiple analytes, are also gaining prominence.

The Impact of Socioeconomic Factors:

The rising prevalence of chronic diseases, such as cardiovascular disease, diabetes, and cancer, is driving the demand for early and accurate diagnostic solutions.

The increasing awareness of preventive healthcare is also contributing to the adoption of POC MDx.

The cost effectiveness of POC MDx, in many cases, is also a large driving factor, especially in lower income areas.

𝐀𝐛𝐨𝐮𝐭 𝐔𝐬: Business Market Insights is a market research platform that provides subscription service for industry and company reports. Our research team has extensive professional expertise in domains such as Electronics & Semiconductor; Aerospace & Defense; Automotive & Transportation; Energy & Power; Healthcare; Manufacturing & Construction; Food & Beverages; Chemicals & Materials; and Technology, Media, & Telecommunications

Fast Utility Improvement Rad: A Wise, Fast And Priceless Process For Software Developers

In essence, Rapid Application Development (RAD) is a model within agile software program development with rapid prototyping at the forefront. With RAD, builders can use the insights gained through the development course of and replace software program without needing to start the development process again every time. The RAD model overfitting in ml is considered one of the most lucrative…

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Warcraft's Dragons

I caught someone's custom environment work for a private Warcraft RP server on my dash. Purely RP, no actual gameplay, so the experience is down to custom environments, with assets arranged in different configurations that stream right to the user. It's an awesome little system. The downside is that there is no asset upload like there would be with Second Life. I found that it's possible to mod things, and then offer up a patch that other people can download so they can see the same things you're seeing (akin to custom skins in Feralheart), but it's such a HURDLE, and it also means they can use whatever you make in whatever way they please. At this point, that's fine. I'll take what I can get. I just want to work on a dragon and if I can get it to use existing animations, even better.

Warcraft dragons received their own glow-up over the years. As of Dragonflight, they look fantastic! In order to compare models, we need to define the different types. From youngest to oldest, there's whelps (hatchlings), drakes (adolescents), dragons (adults), and wyrms (ancient).

Dragons and wyrms appear to use the same model. The important dragons and wyrms have different heads.

When there's mount/riding variations of the wyrms, they're smushed back into the drake model.

Some models had been updated a bit before Dragonflight, such as the whelps in Legion.

Following Dragonflight, the base meshes and many of the important dragons were updated. It looks like they've gone out of the vague A-pose and swapped to T-pose.

The drakes have a really awesome large front claw thing going on, A+, no notes. I haven't gotten too far into the expac yet, but it looks like the new drakes and the dragon flying system (specifically highland drake) use the same models.

They look rad! They've moved away from the elapid snake-like faces entirely, and added additional claws on the front and back legs.

Since these riding dragons are so customizable, the export software I'm using doesn't include textures. There are options like ears, different horns, spiky accents, tails, etc.

Please behold lanky teen Wrathion.

And a version that's even more updated:

Like the whelps and drakes, they pulled him out of A-pose and into T-pose. It's nice that the game still recognizes him as a lil' baby drake.

It makes him look tiny compared to the new dragons:

No T-pose here, looks like it's back to the original poses, probably so they can reuse the old animations. But my god! Beautiful!

Unique faces as well!

Continued in the next post.

Protein Engineering Market Size, Share, Trends, Growth Opportunities, Key Drivers and Competitive Outlook

"Global Protein Engineering Market – Industry Trends and Forecast to 2029

Global Protein Engineering Market, By Product (Instruments, Reagents, Service and Software), Technology (Rational Protein Design, Irrational Protein Design), Protein Type (Monoclonal Antibodies, Insulin, Erythropoietin, Interferon, Colony Stimulating Factor, Growth Hormones, Coagulation Factor, Vaccines, Others), End-Users (Academic Research Institutes, Pharmaceutical and Biotechnology Companies, Contract Research Organizations), Country (U.S., Canada, Mexico, Germany, Italy, U.K., France, Spain, Netherland, Belgium, Switzerland, Turkey, Russia, Rest of Europe, Japan, China, India, South Korea, Australia, Singapore, Malaysia, Thailand, Indonesia, Philippines, Rest of Asia-Pacific, Brazil, Argentina, Rest of South America, South Africa, Saudi Arabia, UAE, Egypt, Israel, Rest of Middle East and Africa) Industry Trends and Forecast to 2029

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**Segments**

- **Product**: The product segment in the protein engineering market includes instruments, reagents, and services. Instruments consist of protein analyzers, Chromatography, Mass Spectrometers, and X-ray Crystallography. Reagents include antibodies, protein labelling, and purification kits. Services include protein sequencing, protein engineering, and protein design. - **Technology**: The technology segment comprises rational protein design, directed evolution, and hybrid technology. Rational protein design involves the use of computational models to design proteins with specific functions. Directed evolution uses iterative rounds of mutation and selection to optimize protein properties. Hybrid technology combines aspects of rational design and directed evolution for protein engineering. - **Application**: Protein engineering finds applications in therapeutics, diagnostics, and industrial processes. In therapeutics, engineered proteins are utilized for drug development, targeted therapy, and personalized medicine. In diagnostics, proteins are used as biomarkers for disease detection and monitoring. In industrial processes, engineered proteins enhance the efficiency of biocatalysts, enzymes, and biosensors.

**Market Players**

- **Thermo Fisher Scientific**: A leading player in the protein engineering market, Thermo Fisher Scientific provides a comprehensive range of instruments, reagents, and services for protein analysis and engineering. The company's advanced technologies and global presence position it as a key player in the market. - **Merck KGaA (EMD Millipore)**: Merck KGaA offers a diverse portfolio of protein engineering tools, including reagents for protein purification, expression systems, and analytics. The company's strong focus on innovation and R&D drives its presence in the protein engineering market. - **Agilent Technologies**: Agilent Technologies is known for its high-quality instruments and solutions for protein analysis and engineering. The company's cutting-edge technologies and broad customer base contribute to its significant market share. - **Bio-Rad Laboratories**: Bio-Rad Laboratories specializes in protein analysis and purification products, serving researchers in academic, biopharmaceutical,Bio-Rad Laboratories has established itself as a prominent player in the protein engineering market due to its extensive range of high-quality protein analysis and purification products. The company's offerings cater to a diverse customer base, including researchers in academic institutions, biopharmaceutical companies, and clinical diagnostics laboratories. Bio-Rad's innovative solutions enable efficient protein characterization, quantification, and purification, essential processes in protein engineering. The company's strong reputation for reliability and accuracy in protein analysis has solidified its position as a trusted provider of tools and reagents for protein research and development.

Bio-Rad Laboratories' commitment to research and development is a key driver of its success in the protein engineering market. The company invests heavily in cutting-edge technology and product innovation to meet the evolving needs of the industry. By continuously introducing new and improved solutions for protein analysis and purification, Bio-Rad stays ahead of the competition and maintains its relevance in the market. This focus on R&D not only enhances the company's product portfolio but also reinforces its reputation as a leader in protein engineering technology.

Furthermore, Bio-Rad Laboratories' strategic partnerships and collaborations with academic institutions, research organizations, and industry players have contributed to its market influence. By fostering strong relationships with key stakeholders in the protein engineering ecosystem, Bio-Rad gains valuable insights into market trends, customer preferences, and emerging technologies. These partnerships also facilitate knowledge exchange, technology transfer, and co-development efforts that drive innovation and enhance Bio-Rad's competitiveness in the market. Leveraging its network of collaborators, Bio-Rad is well-positioned to capitalize on market opportunities and strengthen its market presence in the protein engineering sector.

In addition to its product offerings and research collaborations, Bio-Rad Laboratories' focus on customer satisfaction and support plays a crucial role in its market success. The company's dedication to providing excellent customer service, technical assistance, and training programs ensures that customers receive the necessary guidance and resources to optimize their protein engineering workflows. By prioritizing customer needs and delivering value-added services**Global Protein Engineering Market Analysis**

- The protein engineering market is driven by the increasing demand for novel protein therapeutics and personalized medicine. As advancements in technology enable more precise protein design and engineering, the market is poised for significant growth in the coming years. - The therapeutics segment dominates the protein engineering market, with engineered proteins playing a crucial role in drug development and targeted therapies. The rising prevalence of chronic diseases and the need for more effective treatments drive the demand for protein therapeutics. - Academic research institutes and pharmaceutical & biotechnology companies are the key end-users of protein engineering tools and services. These institutions and organizations invest heavily in protein research to develop innovative therapies and diagnostic solutions, stimulating market growth. - North America and Europe are the leading markets for protein engineering, owing to the presence of established research institutions, biopharmaceutical companies, and technological advancements. Asia-Pacific is expected to witness significant growth due to increasing R&D activities and investments in the healthcare sector. - Key players in the protein engineering market are focusing on strategic partnerships, acquisitions, and product launches to expand their market presence and cater to evolving customer needs. R&D investments and technological innovations remain critical for sustaining competitiveness in the market.

The global protein engineering market is witnessing steady growth driven by advancements in technology, increasing demand for personalized medicine, and the growing focus on protein-based therapeutics. The market is segmented based on products, technologies, protein types, end-users, and geography. In terms of products, instruments, reagents, and

Key points covered in the report: -

The pivotal aspect considered in the global Protein Engineering Market report consists of the major competitors functioning in the global market.

The report includes profiles of companies with prominent positions in the global market.

The sales, corporate strategies and technical capabilities of key manufacturers are also mentioned in the report.

The driving factors for the growth of the global Protein Engineering Market are thoroughly explained along with in-depth descriptions of the industry end users.

The report also elucidates important application segments of the global market to readers/users.

This report performs a SWOT analysis of the market. In the final section, the report recalls the sentiments and perspectives of industry-prepared and trained experts.

The experts also evaluate the export/import policies that might propel the growth of the Global Protein Engineering Market.

The Global Protein Engineering Market report provides valuable information for policymakers, investors, stakeholders, service providers, producers, suppliers, and organizations operating in the industry and looking to purchase this research document.

Table of Content:

Part 01: Executive Summary

Part 02: Scope of the Report

Part 03: Global Protein Engineering Market Landscape

Part 04: Global Protein Engineering Market Sizing

Part 05: Global Protein Engineering Market Segmentation by Product

Part 06: Five Forces Analysis

Part 07: Customer Landscape

Part 08: Geographic Landscape

Part 09: Decision Framework

Part 10: Drivers and Challenges

Part 11: Market Trends

Part 12: Vendor Landscape

Part 13: Vendor Analysis

The investment made in the study would provide you access to information such as:

Protein Engineering Market [Global – Broken-down into regions]

Regional level split [North America, Europe, Asia Pacific, South America, Middle East & Africa]

Country-wise Market Size Split [of important countries with major market share]

Market Share and Revenue/Sales by leading players

Market Trends – Emerging Technologies/products/start-ups, PESTEL Analysis, SWOT Analysis, Porter’s Five Forces, etc.

Market Size

Market Size by application/industry verticals

Market Projections/Forecast

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Forms of Motor vehicle Diagnosis Devices in the Website traffic Gentle Program

A visitors light-weight program is made up of number of distinct factors which allow for coordinated performing. These elements are – Source Of Energy, Traffic Lighting fixtures, Control Centre/undefinedHub, and Detectors/undefinedDetectors.

Each and every electrical element demands a way to obtain power. When it comes to visitors lighting fixtures, you may connect them to the local power supply or possibly a different generator close by. The next component may be the targeted traffic signal lighting fixtures, these lights can be found in three distinct hues, specifically –red, discolored, and eco-friendly. These lighting are connected to a pole so it is apparent to car owners.

The manage heart, as being the title indicates is definitely the centralized model that manages the complete program. These possess a personal computer inside them that match between each of the lamps inside an intersection.

Last but not least, the detectors and detectors supply the management heart with information regarding the existence and level of automobiles on your way. It operates as the eyeballs & the ear from the process.

As reviewed previously mentioned, the fundamental function of a visitors indicate method is to regulate the circulation of traffic automatically and also the the very least chance of mistakes possible. No one wishes to be accountable for mass car accidents on the closest four-way intersection. To guarantee safe doing work,led traffic signal lights we now have created many solutions to facilitate the synchronised doing work of a traffic light-weight system.

So, let us talk about these systems.

This is one of the oldest types of managing website traffic signals. Each and every intersection with lighting fixtures has a individual handle center/undefineddevice/undefinedcomputer within a homes close by which can be developed to change lights at distinct time durations.

This is basically the a lot more present day and one of the more commonly used indicate manage solutions available nowadays. These solutions work with a big difference in inductance to observe the inclusion of vehicles near an intersection. There exists a loop of induction coils inserted inside of the asphalt associated with a nearby generator/undefinedsource of energy. Once powered up, the coils commence to develop an electromagnetic discipline by using a certain measure of inductance. When a vehicle enters this industry, the metal areas of your vehicle change the inductance from the field. This modification is gathered from the detectors from the method which communicates together with the website traffic indicate.

In contrast to the earlier method, a radar sensor operates over the floor. These systems employ microwave oven indicators to identify the movement of cars toward and from them. These are generally attached to traffic signal poles or arms. Nevertheless, to be able to operate, the automobile has to be relocating faster than 3 mph/4.8 kilometers per hour.

The biggest trouble with these devices is need for a immediate line of eyesight with vehicles. Which means that any obstruction like billboards, unfavorable conditions, and many others. Will make these solutions not work correctly.

Finally, some targeted traffic signs utilize video camera detectors to manage the circulation of targeted traffic. These systems utilize a camera and motor vehicle diagnosis computer software/algorithms to recognize the inclusion of automobiles within a slim recognition zone. These are fantastic for places the location where the rads are certainly not appropriately created like in far off or countryside locations.

Even so, the largest problem with this system is they are severely at risk of false detections. These sensors could be blinded by headlight flashes and high rainfall. They could also set off false beneficial discovery from your shadow of autos.

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The Future is Now: How EAPs Enable Continuous Business Transformation

The journey of business modernization with an Enterprise Application Platform (EAP) is not a one-time project; it's a continuous process of transformation. In an ever-evolving digital landscape, businesses must be equipped to adapt, innovate, and continuously deliver value. An EAP is the engine that drives this ongoing evolution.

By providing a flexible and extensible foundation, EAPs enable organizations to:

Respond to Market Shifts Rapidly: New market opportunities or threats can be addressed quickly by developing and deploying new applications or modifying existing ones with agility.

Personalize Customer Experiences at Scale: Leverage data and AI capabilities within the EAP to create highly personalized and relevant interactions for individual customers, fostering deeper engagement and loyalty.

Optimize Operations Through Intelligent Automation: Identify and automate more complex business processes, from supply chain management to customer service, leading to significant cost savings and efficiency gains.

Empower a Hybrid Workforce: Provide seamless access to critical applications and data, supporting remote work models and fostering collaboration across geographically dispersed teams.

Foster a Culture of Innovation: By lowering the barrier to application development, EAPs empower more employees to contribute to digital innovation, driving continuous improvement from within.

The future of business lies in its ability to be truly adaptive and responsive. An EAP is not just a technology platform; it's a strategic asset that enables businesses to embrace continuous transformation, ensuring they remain competitive, resilient, and ready for whatever the future holds.

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Unveiling Growth Trends and Market Size in the ADME Toxicology Testing Market

Overview and Scope ADME toxicology testing is a set of studies conducted to assess the potential toxicity of a substance or drug candidate based on its absorption, distribution, metabolism, and excretion (ADME) properties. These tests are used in drug development to ensure the well-being of individuals exposed to substances. Sizing and Forecast The adme toxicology testing market size has grown rapidly in recent years. It will grow from $9.3 billion in 2023 to $10.34 billion in 2024 at a compound annual growth rate (CAGR) of 11.2%.  The  growth in the historic period can be attributed to stringent regulatory requirements, rising drug development activities, growing concerns about drug safety, advancements in in vitro testing methods, increased outsourcing of toxicology studies.. The adme toxicology testing market size is expected to see rapid growth in the next few years. It will grow to $15.77 billion in 2028 at a compound annual growth rate (CAGR) of 11.1%.  The growth in the forecast period can be attributed to rapid expansion of biopharmaceuticals, growing emphasis on personalized medicine, emergence of advanced therapies, enhanced predictive toxicology models, global increase in chemical safety testing. To access more details regarding this report, visit the link: https://www.thebusinessresearchcompany.com/report/adme-toxicology-testing-global-market-report Segmentation & Regional Insights The adme toxicology testing market covered in this report is segmented – 1) By Product Type: Instruments, Software Solutions, Assays Systems, Reagents, Other Products 2) By Method: Cellular Assay, Biochemical Assay, In Silica, Ex-vivo 3) By Technology: Cell Culture, High Throughput, Molecular Imaging, OMICS Technology, Other Technologies 4) By Application: Systemic Toxicity, Renal Toxicity, Hepatotoxicity, Neurotoxicity, Other Applications 5) By End-User: Cosmetics And Household Products, Pharmaceutical Industry, Animal Industry, Food Industry, Other End Users North America  was the largest region in the ADME toxicology testing market in 2023. Asia-Pacific  is expected to be the fastest-growing region in the forecast period. The regions covered in the adme toxicology testing market report are Asia-Pacific, Western Europe, Eastern Europe, North America, South America, Middle East,  Africa. Intrigued to explore the contents? Secure your hands-on sample copy of the report: https://www.thebusinessresearchcompany.com/sample.aspx?id=11922&type=smp Major Driver Impacting Market Growth The rising demand for novel drugs is expected to propel the growth of the ADME toxicology testing market going forward. Novel drugs are pharmaceutical substances that have not been previously approved or marketed for therapeutic use. ADME toxicity testing is a major step in drug development to ensure that the novel drug is safe and doesn’t produce any harmful toxins in the body. Key Industry Players Major companies operating in the adme toxicology testing market report are AbbVie Inc., Thermo Fisher Scientific Inc., Boehringer Ingelheim GmbH, Laboratory Corporation of America Holdings, Corning Incorporated, Eurofins Scientific SE, Agilent Technologies Inc., Lonza Group AG, Dassault Systèmes SE, Catalent Inc., Charles River Laboratories International Inc., Beckman Coulter Inc., PerkinElmer Inc., Bio-Rad Laboratories Inc. The adme toxicology testing market report table of contents includes: 1. Executive Summary

2. Market Characteristics

3. Market Trends And Strategies

4. Impact Of COVID-19

5. Market Size And Growth

6. Segmentation

7. Regional And Country Analysis .

.

.

27. Competitive Landscape And Company Profiles

28. Key Mergers And Acquisitions

29. Future Outlook and Potential Analysis Contact Us: The Business Research Company Europe: +44 207 1930 708 Asia: +91 88972 63534 Americas: +1 315 623 0293 Email: [email protected] Follow Us On: LinkedIn: https://in.linkedin.com/company/the-business-research-company   Twitter: https://twitter.com/tbrc_info   Facebook: https://www.facebook.com/TheBusinessResearchCompany   YouTube: https://www.youtube.com/channel/UC24_fI0rV8cR5DxlCpgmyFQ   Blog: https://blog.tbrc.info/   Healthcare Blog: https://healthcareresearchreports.com/   Global Market Model: https://www.thebusinessresearchcompany.com/global-market-model  

Multiplex Assay Market: Growth Assessment 2024-2032

As per Triton Market Research, the Global Multiplex Assay Market report is segmented by Product and Service (Instruments and Accessories, Reagents and Consumables, Software and Services), Application (Clinical Diagnostics, Research and Development, Companion Diagnostics), Industry Vertical (Research Institutes, Pharmaceutical & Biotechnology Companies, Clinical Laboratories, Hospitals), Type (Nucleic Acid-Based Multiplex Assay, Protein-Based Multiplex Assay, Other Multiplex Assays), Technology (Multiplex PCR, Multiplex Protein Microarray, Other Technologies), and Regional Outlook (Middle East and Africa, North America, Europe, Asia-Pacific, Latin America).

The report highlights the Market Summary, Industry Outlook, Impact Analysis, Porter’s Five Forces Analysis, Key Buying Impact Analysis, Market Attractiveness Index, Key Market Strategies, Market Drivers, Challenges, Opportunities, Analyst Perspective, Competitive Landscape, Research Methodology and scope, Global Market Size, Forecasts & Analysis (2024-2032).

According to Triton’s market research report, the global multiplex assay market is set to advance at a CAGR of 8.56% during the forecast period 2024-2032.

A multiplex assay is a technique for simultaneously detecting and quantifying various analytes, including proteins, biomolecules, growth factors, and cytokines. It enhances the efficiency of analysis by amplifying multiple targets in a polymerase chain reaction (PCR).

Factors such as technological advancements, rapid growth of companion diagnostics, and growth in drug discovery initiatives create lucrative opportunities for the multiplex assay market. Multiplex assays encompass various research technologies, ranging from basic Petri dishes to automated robotics tailored for High Content Screening (HCS). Embracing target-based drug discovery models with a focus on cell and systems biology promises to mitigate failures and reduce costs in the initial stages of drug development.

However, issues related to cross-reactivity and assay interference, challenges in achieving adequate assay range, and lack of skilled professionals hamper the expansion of the studied market.

The Asia-Pacific is projected to witness the fastest growth over the forecast period. The market experiences growth due to a surge in demand for healthcare infrastructure, the expansion of hospitals in emerging nations, and the development of the R&D sector. Additionally, healthcare reforms and technological progress in the field contribute to this growth.

The well-known companies in the multiplex assay market consist of Abcam Limited, Agilent Technologies Inc, Becton, Bio-Rad Laboratories Inc, Seegene Inc, Dickinson and Company, Bio-Techne Corporation, F Hoffmann-la Roche Ltd, Merck Millipore, Olink Proteomics AB, Illumina Inc, Qiagen NV, Randox Laboratories Ltd, Siemens Healthineers AG, and Thermo Fisher Scientific Inc.

The forecast suggests that the multiplex assay market will witness a transition from a moderate to a significant level of competition due to potential new entrants. Moreover, the rising incidence of various diseases, including neurological disorders, cancer, and infectious ailments, is set to open avenues for emerging enterprises to conduct research and innovate in the field of pharmaceuticals, technologies, and therapeutic interventions for these health conditions.