Working on a low fidelity prototype for my Human-Computer Interaction class and it's the silliest I've ever felt during this degree.

I've also cleaned my room, had some ice cream and I plan on studying for a test I have next week. Busy busy 🐝

Hope everyone is doing well!

The Covers of the Fully Compiled Deluxe Edition and the Single Deluxe Editions

Deadpool celebrates Xmas 🎅 🎄

Cybernetics Girl

it literally would have cost Aperture zero dollars to not make everything in their facility self aware and capable of feeling physical pain and existential dread.

i hope you know that if a robot had a hole i would commit unspeakable acts. and that if a robot has no hole at all it is immeasurably hotter.

Bare with me, I've got an idea that combines TFP Shockwave's invention of the cortical psychic patch, what motivation a Shattered Glass Shockwave might have made it, plus more broad cybertronian biology headcanons and how it lead to the invention of the cortical psychic patch in the first place-

Um... let's go!

To start, let's go in reverse order by talking cybertronian biology, or more specifically the more wire based functions of a more literal less sex version of interface panels. Because cybertronians are biomechanical aliens who's only method of 'reproduction' canonically (in most series) is through being birthed by the planet itself - on hold while Primus and Cybertron are dead - when I say 'interface panels' I mean panels housing plugs and ports that are typically there for medical stuff and otherwise data transfers or for use in hardware depending on the individual. The number of panels is relatively consistent and the number of in/out connections depends on the size of the bot (more for larger frames, less for smaller) and are kinda paired to whatever systems they are nearest location wise; two on either side of the hips or one each at the top of the legs, two on either side of the chest or one each at the top of the arms.

Depending on the location you can read the diagnostics of that part of the frame in more detail than if you tried investigating the same part in an entirely different panel; you're gonna get a more accurate read on damages to the left arm in the left arm panels then you are on the right leg. And for particular frames, the interface panels are used to control objects using the relevant limb or part - like a robotic arm to lift things heavier than your frame can handle - and probably even to have your frame be used AS a limb; combiner limbs would connect to whoever's the main body and interface with the relevant limb panel.

But there are panels that are explicitly medical use only, that being internal panels adjunct to the sparkchamber as well as another for specific monitoring of a cybertronian's organs, and paneling at the back of the helm or where it meets the neck for the processor and all the delicate software it holds. Bots with medical programing like Ratchet can interface with those panels directly in the event of a lack of resources (AKA the entirety of Transformers: Prime), and in fact the panel along the sparkchamber would be the easiest way to get a general systems check on a patient. Mecha like Knock Out who may or may not have actual history with being a medical doctor probably would have a harder time directly interfacing with the more delicate sparkchamber, organ, and processor panels, but he and Ratchet (and other bots with even the vaguest sense of medical training) can set up a line running to a monitor or sparkreader or any other medical hardware to fully take in a data analysis, even if it means more resources are used or that vulnerabilities could be introduced.

To the processor panel, much like brain surgery you kinda need a signal in the first place in order to get a read on it's damages, hardware or software. A spark read can let you know if the body is alive and all the damages that IT can diagnose for a general check, but operating on an offline or barely awake processor can lead to issues that you may not even be aware of at the time of procedure. It's why a direct connection (with appropriate medical coding) is better for processor diagnosis as the hardware bypass might have a signal delay between patient and doctor.

And here's where the cortical psychic patch comes in.

When Megan was otherwise comatose, the cortical psychic patch was able to allow access into his processor that had been percolating with activity (one described by Knock Out to be like 'a dream he may never wake from'), and though far from being an actual medical use of the patch it did allow for a non-medical bot to access the processor of a very much comatose patient. It was even Ratchet himself - resident medic of the Autobots - that knew how to create the patch even if it was banned for Autobot use.

Keeping in this reverse order, perhaps a SG Shockwave had invented the cortical psychic patch for an intended medical use, a tool meant for mecha who may not have been forged nor coded to BE medics but have enough training to be such (typically self-taught in the early stages of revolution, then mentored by forged medics when the war really picked up speed) in order to allow direct access to the processor interface panel. The design of it would be - rather than a plug that just magnetically sticks on to the back of a cybertronian's head - would be a series of plugs and ports of mostly universal design, adjustable to a degree for multiple frames, allowing the medic irrespective of coding to have full access to diagnose what the fuck is up with the processor.

Unfortuneately for SG Shockers (and fully intentional by TFP Shockwave) the patch isn't quite as synonymous as the medic's coding is to processor interfacing, being rather invasive of a connection even as it is, let alone the patch being more of a hardware connection which in of itself introduces vulnerabilities. Heck, it's not even safe for the operator themselves to use the patch, seeing as how Bumblebee got a head full of Megan; I mean, Bumblebee isn't a trained medic, but the fact that it happened at all is evidence to it's flaws. And that's to a patient who isn't of mind enough to struggle, Shockwave himself says that resisting the patch may cause damage to the patient/subject, combine that with the second option of 'let it happen and let them walk unabated in your head' and you're pretty much shit out of luck.

The base Shockwave would most certainly be fully aware of the intent, a direct hardline to an individual's processor is most definitely a connection to some very vulnerable software and thus information, the cortical psychic patch probably battling a lot of firewalls off with the ease of a medical interface. And in the base TFP universe, Autobots with only recent war-based medical training as opposed to previous education probably early on DID resort to using the patch as a crutch, Ratchet after all knew how to make one. It's probably a combination of Shockwave's brutal interrogation method USING the cortical psychic patch and the relatively inexperienced Autobot medics opting to use direct processor interface rather than the comparably safer hardware bypass that lead to it's banned status in the Autobot ranks, too many 'Bots were having trauma responses at the hands of young medic's servo's who didn't know any better and actively resisting the patch, which just so happened to lead to more Autobot casualties and thus probably shellshocking the medics in training to get them to fear the daunting prospect of actually losing a patient by THEIR OWN hands.

It's one thing to be using a tool made by someone who has been known to do lots of dubious shit, it's another to see a tool that you made to help be manipulated into an interrogation technique, made all the worse now that you have significantly more emotional capacity to not only feel guilty but feel solely responsible for the patch induced trauma of your own allies; the cortical psychic patch was banned by the Shattered Glass Decepticons for about similar reasons, but it's near worse for a lot of medics (even the experienced ones) had been relying on it solely for the fact that they weren't forged with the coding. The stagnated use of the cortical psychic patch in the base verse was mostly because Shockwave himself had been the inventor of it and main user of the patch, the Autobots avoiding it's use for the ban and the Decepticons not very experienced with the tool. In Shattered Glass however, the only real limit to it's perpetuity would be if the Autobots managed to learn how to create the patch at all, which if even in the base verse Ratchet knew how to make one, probably means that there's more than enough patch use in SG even if Shockwave gets caught in a spacebridge explosion or not.

And that's that I think- funny to talk about interface panels in a transformers post without doing it in a sex way haha- I just want these guys to be alien 😫

Siemens HMI: Transform Human-Machine Interaction for Industrial Automation 

In this highly dynamic environment industrially, technology aimed at controlling systems should be user friendly and efficient so as to enhance productivity plus ensuring safety at workplace. This is why Siemens HMI (Human-Machine Interfaces) have been developed to provide advanced interface control solutions that are easy to use around the world in many industries. For instance, with its different types of HMIs available in the market today, Siemens offers highly performing communication instruments that simplify movement around production lines thereby making them more dependable and easier to handle managerial tasks related with an industry’s automation. 

Key Features 

High-Resolution Touchscreens: Siemens HMIs have experiences which displays are transparent with several touch attributes they allow for accessibility as well as safety. 

Scalability: Offering a comprehensive selection of HMI products, Siemens has everything from simple panels all the way to cutting-edge, high-performance gadgets that make it possible for any size project to expand easily. 

Robust Design: Being a construction made for areas of industries, the HMIs of Siemens can resist extreme environments like dust, water, and high temperatures. 

User-Friendly Interfaces: As a result of its simple interfaces, Siemens SIMATIC HMIs allow for easy operator handling with a slight skill improvement and less mistakes, leading to increased production. 

Advanced Connectivity: Your automation system can have better integration with other devices if you use Siemens HMI panels that are equipped with numerous communication protocols such as PROFINET, PROFIBUS and Ethernet/IP. 

Types of HMI Profinet Products 

SIMATIC HMI Basic Panels: These plates satisfy necessary utility at affordable price. They are appropriate for smaller systems requiring efficient management. 

SIMATIC HMI Comfort Panels: These panels are made for more extreme applications, providing top-notch performance multi-touch feature and various sizes for various use cases. 

SIMATIC HMI Mobile Panels: Lightweight and tough, these mobile panels give operators the freedom to move around whilst they still have control, offering flexibility even in large or spread-out production sites. 

SIMATIC HMI Advanced Panels: For complex automation solutions needing speedy processing and large-range visualizations, these top-notch panels provide sophisticated processing strength as well as features. 

Applications of HMI SIMATIC 

Various sectors utilize Siemens HMI solutions such as: 

Manufacturing: Real-time control and monitoring as a way of optimizing production lines. 

Energy: Power plants and distribution networks management with data visualization which is reliable. 

Food and Beverage: Maintaining the regulation of processes and surveillance in clean places. 

Pharmaceutical: Enabling and facilitating with precision the regulatory compliance that is strict whereby reporting will be processed accordingly in line with the rules. 

Automotive: Improving assembly line supervision by using adaptable and resilient connections. 

Advantages  

Increased Productivity: Operators are able to solve problems rapidly due to simplified interfaces and real-time monitoring which results in diminished downtime and heightened productivity. 

Cost Savings: The HMIs provided by Siemens easily blend in with previously existing structures thereby minimizing the expenses on both installations along with maintenance. 

Future-Proof Technology: Siemens keeps on innovating by releasing new features and software updates, which guarantees that your HMI investment stays up to date as technology changes. 

Enhanced Safety: Operators' safety & system reliability can basically be ensured through embedded diagnostics & emergency stop buttons in Siemens HMI products. 

Why Choose Siemens HMI? 

Flexibility, reliability, and performance are the key features of Siemens Human Machine Interface solutions, making it suitable for an extensive variety of industrial uses. Be it a small-system-operated panel or a sophisticated HMI on a large-scale automation project, Siemens has got the right thing for you. Their intuitive designs and robust characteristics enhance operational efficiency and reduce costs thus helping businesses remain competitive. 

Conclusion 

Siemens systems are critical components in today’s industrial automation. They allow operators to have total control over their production processes through interfaces that are both dependable and user-friendly. If you work for instance in production, energy or any other area, Siemens HMIs help make sure everything goes well and stays productive over long periods. 

Planning to merge Siemens HMI in your manufacturing systems? Contact Naksh Technology today if you want to find out how we can optimize your automation processes and help you propel your business. 

Power SCADA: Understanding SCADA Systems and Their Importance in the Modern Power Grid

What Are SCADA Systems? Supervisory control and data acquisition (SCADA) systems are specialized computer systems that monitor and control industrial, infrastructure, or facility-based processes. In the power industry, SCADA systems provide centralized monitoring and control of electrical networks and infrastructure from a control center. They collect real-time data from remote equipment like power generators, transmission lines, substations, and distribution lines. This data is then analyzed and used to detect or respond to issues like power outages or emergencies. SCADA systems use programmable logic controllers (PLCs) or remote terminal units (RTUs) located at remote sites to interface with electrical equipment and sensors gathering data on things like voltage, power load, equipment status, and environmental conditions. The gathered information is transmitted back to a centralized control center via a communication infrastructure, typically through networks, telephone lines, microwave, satellite, or dual radio. At the control center, operators can supervise and control field equipment using SCADA interface applications on networked computers or workstations. Some key functions performed include switching equipment like circuit breakers, monitoring generation levels, load balancing across grids, and issuing control commands in emergency situations. How SCADA Improves Grid Operations and Reliability The use of Power SCADA systems has provided numerous benefits to utility companies and power system operations. Real-time monitoring of networks from a central location allows operators to rapidly detect and diagnose issues affecting service. Quick recognition of faults or overloads helps reduce the impact of outages by pinpointing problem areas for faster restoration of service. SCADA also facilitates centralized remote operation of grid infrastructure like switching substations online or offline to route power. This improves flexibility to reroute power in emergencies or maintenance scenarios. The data collection abilities of SCADA are invaluable for transmission scheduling, load forecasting, and power market operations. Meter readings, generation levels and load profiles give operators insights into network capacity and electricity demand patterns. They can do optimal power dispatch to generation units based on economics. Remote access also enables power utilities to defer capital costs by upgrading aging infrastructure over time instead of all at once. Expandable SCADA systems support integrating renewable energy sources into grids by balancing variable energy inputs. Overall, its capabilities have significantly enhanced power system reliability, efficiency, safety and resilience against disruptions. Cybersecurity Challenges for SCADA in Power Infrastructure While SCADA systems have provided clear benefits, their introduction has coincided with new cybersecurity risks that utilities must address. The networked nature of SCADA and its integration into business systems exposes it to both internal and external threats. Remote access ports into control centers pose attack surfaces if not properly secured. Commonly exploited vulnerabilities include weak authentication, lack of access controls, and failure to update aging SCADA protocols no longer receiving security patches. Get more insights on Power SCADA Market

Unlock More Insights—Explore the Report in the Language You Prefer

French

German

Italian

Russian

Japanese

Chinese

Korean

Portuguese

Alice Mutum is a seasoned senior content editor at Coherent Market Insights, leveraging extensive expertise gained from her previous role as a content writer. With seven years in content development, Alice masterfully employs SEO best practices and cutting-edge digital marketing strategies to craft high-ranking, impactful content. As an editor, she meticulously ensures flawless grammar and punctuation, precise data accuracy, and perfect alignment with audience needs in every research report. Alice's dedication to excellence and her strategic approach to content make her an invaluable asset in the world of market insights.

(LinkedIn: www.linkedin.com/in/alice-mutum-3b247b137 )

"The Crucial Role of Industrial Control Integrators: Driving Efficiency and Innovation in Modern Industry"

The Essential Role of an Industrial Control Integrator in Modern Industry

In today’s fast-paced industrial environment, the expertise of an Industrial Control Integrator has become indispensable. These professionals or companies specialize in designing, implementing, and maintaining complex control systems that are critical for optimizing industrial processes. This blog delves into the pivotal role of an Industrial Control Integrator, explaining their key responsibilities and the impact they have on industrial efficiency.

What is an Industrial Control Integrator?

An Industrial Control Integrator is a specialized expert or firm responsible for creating and managing control systems that automate and regulate industrial machinery and processes. These control systems encompass both hardware and software components, which work together to enhance performance, increase reliability, and streamline operations.

Core Responsibilities of an Industrial Control Integrator

Control System Design and Engineering:

Needs Analysis: The integrator begins with a comprehensive assessment of the client’s specific requirements. This involves understanding their industrial processes and defining the desired outcomes.

Custom System Design: Based on the assessment, the integrator designs a bespoke control system, selecting the appropriate sensors, controllers, and communication protocols to meet the client’s needs.

Integration and Installation:

Hardware Setup: The integrator manages the installation of essential components such as Programmable Logic Controllers (PLCs), Human-Machine Interfaces (HMIs), and other field instruments.

Software Configuration: They also configure the software that governs the control system, ensuring seamless communication between hardware and other operational systems.

Testing and Commissioning:

System Testing: Before full deployment, the integrator conducts rigorous testing to identify and rectify any issues, simulating real-world conditions to verify system performance.

Commissioning: Once testing is complete, the integrator supervises the final commissioning process, making any necessary adjustments to ensure optimal functionality.

Training and Ongoing Support:

Staff Training: Integrators provide training for the client’s personnel, equipping them with the knowledge to operate and maintain the new system effectively.

Continued Support: They offer ongoing maintenance and support services to resolve any issues and ensure the system continues to operate smoothly.

Why Industrial Control Integrators are Vital

Boosting Efficiency:

Industrial Control Integrators streamline processes by automating operations, which reduces manual input and enhances precision. This leads to improved productivity and reduced operational costs.

Enhancing Safety:

Integrators implement advanced control systems that monitor conditions in real time, increasing workplace safety by triggering alarms or shutdowns when necessary.

Ensuring Reliability:

By designing systems with redundancy and fail-safes, integrators help minimize downtime, which is crucial for meeting production targets and maintaining product quality.

Facilitating Scalability:

As businesses expand, their control systems must adapt. Integrators create flexible solutions that can be easily scaled or upgraded to meet growing demands.

Incorporating Emerging Technologies:

With the rise of Industry 4.0, integrating new technologies such as the Internet of Things (IoT), advanced analytics, and Artificial Intelligence (AI) is becoming increasingly important. Control integrators are key to incorporating these innovations into existing systems.

The Future of Industrial Control Integration

The field of industrial control integration is continuously evolving, driven by technological advancements and shifting industry needs. Future trends include:

AI and Machine Learning Integration: Enhancing predictive maintenance and process optimization.

IoT Integration: Enabling more detailed data collection and real-time analytics.

Enhanced Cybersecurity: Addressing the increasing need for robust security measures to protect industrial control systems from cyber threats.

Conclusion

Industrial Control Integrators are essential in ensuring the efficiency, reliability, and safety of modern industrial processes. Their expertise in designing, implementing, and maintaining control systems is crucial for optimizing operations and keeping pace with technological advancements. For businesses looking to upgrade or implement control systems, partnering with a skilled Industrial Control Integrator can be the key to achieving greater efficiency and performance.

Major Breakthrough in Telepathic Human-AI Communication: MindSpeech Decodes Seamless Thoughts into Text

New Post has been published on https://thedigitalinsider.com/major-breakthrough-in-telepathic-human-ai-communication-mindspeech-decodes-seamless-thoughts-into-text/

Major Breakthrough in Telepathic Human-AI Communication: MindSpeech Decodes Seamless Thoughts into Text

In a revolutionary leap forward in human-AI interaction, scientists at MindPortal have successfully developed MindSpeech, the first AI model capable of decoding continuous imagined speech into coherent text without any invasive procedures. This advancement marks a significant milestone in the quest for seamless, intuitive communication between humans and machines.

The Pioneering Study: Non-Invasive Thought Decoding

The research, conducted by a team of leading experts and published on arXiv and ResearchGate, demonstrates how MindSpeech can decode complex, free-form thoughts into text under controlled test conditions. Unlike previous efforts that required invasive surgery or were limited to simple, memorized verbal cues, this study shows that AI can dynamically interpret imagined speech from brain activity non-invasively.

Researchers employed a portable, high-density Functional Near-Infrared Spectroscopy (fNIRS) system to monitor brain activity while participants imagined sentences across various topics. The novel approach involved a ‘word cloud’ task, where participants were presented with words and asked to imagine sentences related to these words. This task covered over 90% of the most frequently used words in the English language, creating a rich dataset of 433 to 827 sentences per participant, with an average length of 9.34 words.

Leveraging Advanced AI: Llama2 and Brain Signals

The AI component of MindSpeech was powered by the Llama2 Large Language Model (LLM), a sophisticated text generation tool guided by brain signal-generated embeddings. These embeddings were created by integrating brain signals with context input text, allowing the AI to generate coherent text from imagined speech.

Key metrics such as BLEU-1 and BERT P scores were used to evaluate the accuracy of the AI model. The results were impressive, showing statistically significant improvements in decoding accuracy for three out of four participants. For example, Participant 1’s BLEU-1 score was significantly higher at 0.265 compared to 0.224 with permuted inputs, with a p-value of 0.004, indicating a robust performance in generating text closely aligned with the imagined thoughts.

Brain Activity Mapping and Model Training

The study also mapped brain activity related to imagined speech, focusing on areas like the lateral temporal cortex, dorsolateral prefrontal cortex (DLPFC), and visual processing areas in the occipital region. These findings align with previous research on speech encoding and underscore the feasibility of using fNIRS for non-invasive brain monitoring.

Training the AI model involved a complex process of prompt tuning, where the brain signals were transformed into embeddings that were then used to guide text generation by the LLM. This approach enabled the generation of sentences that were not only linguistically coherent but also semantically similar to the original imagined speech.

A Step Toward Seamless Human-AI Communication

MindSpeech represents a groundbreaking achievement in AI research, demonstrating for the first time that it is possible to decode continuous imagined speech from the brain without invasive procedures. This development paves the way for more natural and intuitive communication with AI systems, potentially transforming how humans interact with technology.

The success of this study also highlights the potential for further advancements in the field. While the technology is not yet ready for widespread use, the findings provide a glimpse into a future where telepathic communication with AI could become a reality.

Implications and Future Research

The implications of this research are vast, from enhancing assistive technologies for individuals with communication impairments to opening new frontiers in human-computer interaction. However, the study also points out the challenges that lie ahead, such as improving the sensitivity and generalizability of the AI model and adapting it to a broader range of users and applications.

Future research will focus on refining the AI algorithms, expanding the dataset with more participants, and exploring real-time applications of the technology. The goal is to create a truly seamless and universal brain-computer interface that can decode a wide range of thoughts and ideas into text or other forms of communication.

Conclusion

MindSpeech is a pioneering breakthrough in human-AI communication, showcasing the incredible potential of non-invasive brain computer interfaces.

Readers who wish to learn more about this company should read our interview with Ekram Alam, CEO and Co-founder of MindPortal, where we discuss how MindPortal is interfacing with Large Language Models through mental processes.

My favorite manga Series’s 💕💕

The eyes of infinity 👁️

Cybernetics Girl

Brainpiece interface-Future vision of human-machine interaction: repair damaged neurhasis, stimuli and enhancement of brain region potential

The medical community has already introduced brain equipment. It is a new type of technical brain -machine interface (BCI) human -computer interaction. It is opening a very different neurons exploration.BCI is also known as a brain interface. It is a chip implanted in the brain tissue that provides direct communication between the brain and the computer and the mechanical limb. BCI bypasses…

View On WordPress