Bit of a long shot but I need some help with something. For my final year project for college, I need to do a research thesis on a topic and carry out surveys relating to it. For my project I chose to examine The use of ChatGPT in education and if it's actually worth using for students.

If you can I'd really appreciate if you could answer some questions on it through the survey I have linked below. I need a minimum of 100 responses and I have 63 so far so any help would be appreciated. Thanks.

𝒲𝑜𝓇𝒹 𝓅𝒶𝒾𝓇𝓈 𝒻𝑜𝓇 𝒮𝒸𝒽𝑜𝑜𝓁 𝒞𝑒𝓇𝓉𝒾𝒻𝒾𝒸𝒶𝓉𝑒

Final year collection

Styling and Garments by me

Unique Cadence EDA Projects for Engineering Students

Cadence EDA Project is the all-in-one EDA solution dedicated to EDA, which combines the tool and the solution in one powerful package that facilitates the creation of the integrated circuits (ICs) and electronic system. Starting with schematic and topographical design, we offer our integrated environment, enabling engineers to create designs that are very effective and precise by the standard of the engineering profession. Takeoff Edu Group Provide Unique projects for final year students.

With 3D CAD, in-circuit engineering, advanced modelling, and signal integrity analysis tools, the platform enables power optimization, design for manufacturability, and solving of complex design challenges to feature products with high performance and reliability. EDA provides the project designs either in analogy, digital or mixed-signal designs that equip the engineer to conceive the idea into the product while also meeting the industry requirements and ensuring reduced time to market.

Takeoff Edu Group-Example titles for Cadence EDA Project

Trendy:

Fixed-Posit: A Floating-Point Representation for Error-Resilient Applications

An Area Efficient 1024-point Low Power Radix-22 Fft Processor with Feed-forward Multiple Delay Commutators

Standard:

Vedic-Based Squaring Circuit Using Parallel Prefix Adders

An Analysis Of DCM-based True Random Number Generator

Static Delay Variation Models for Ripple-carry and Borrow-save Adders

A Two-speed, Radix-4, Serial–Parallel Multiplier

A Systematic Delay and Power Dominant Carry Save Adder Design

The most common projects in this regard are centered around the utilization of Cadence's extensive collection of software tools and platforms, which address different stages of the design cycle, from idea development to final product development alike. One puzzle of Cadence EDA projects that are solved is circuit design. Engineers utilize Virtuoso for schematic entry and layout creation, where they assure themselves that complex integrated circuits can be implemented efficiently. As well as Cadence's simulation and verification tools, Spectre and Incisive, these tools are vitally important in validating the functionality and performance, identifying the possible errors that might cause fabrication problems. Additionally, in their EDA projects, Cadence uses physical implementation tools such as Encounter to perform layout and timing optimizations, thus attaining high chip design robustness and reliability. In addition, the rapid emergence of high-tech semiconductor device manufacturers such as silicon photonically leads Cadence EDA projects to include mainly custom IC design, RFIC (Radio Frequency Integrated Circuit) design, and mixed-signal verification, which meet various market requirements. In the frame of collaborative work and innovative methods, progress in electronic design is achieved by Cadence EDA projects. The development of the most advanced hardware solutions that are put to use in multiple areas, such as consumer electronics and automotive, and many others beyond, is facilitated and promoted by such projects. Fundamentally, the Cadence EDA projects unite design expertise and technology with creativity to impact positively the changes in the developing semiconductor design realm.

The Cadence EDA Projects is one of the most important components in today's engineering by enabling Takeoff Projects to create and be more advances. During the team's project with Cadence software, we saw an increase in productivity and higher precision level in designing electronic circuits. From schematic capture to layout and verification, Cadence EDA proved very suitable for our workflow which was being to meet a timely delivery of high quality solutions. Leveraging our circuit simulation and optimization skills, we bravely took on complex issues with confidence. Further, this dedication to constant improvement maintains the development of our projects in the vanguard of technology. By and large, Cadence EDA Projects have been playing a key role in Takeoff Projects’ journey to keeping the projects afloat amidst the ever-evolving world of electronic design.

Wireless Sensor Network Projects for Engineering Students

Takeoff Projects provides dynamic wireless sensor network projects for engineering students. From designing energy-saving systems to implementing real-time monitoring systems, our services cover various aspects of WSN technology. Students explore sensor node development, data collection, and network optimization, and gain hands-on experience with state-of-the-art techniques. Whether we’re exploring applications in environmental management, healthcare, or smart services, our projects contribute to innovation and useful skills.

Latest wireless sensor network projects:

1.Design and implementation of LoRa-based intelligent field service system with wireless sensor network:

This work proposes the development of an agricultural environmental sensor for low-energy environment based on LoRa wireless technology. Given the way in which current smart agriculture data is collected and processed in terms of location and the need to maintain the associated equipment, Zigbee, Wi-Fi, GPRS Traditional wireless sensing technologies have short transmission ranges and interfering signals on large farms and other weather and environmental monitoring systems.

2.Energy-efficient materials distribution in wireless energy harvesting sensor networks:

In this application, we mainly focus on energy conservation in WSN. Energy harvesting (EH) sensors have been proposed in recent years to overcome the mentioned problem. These sensors can strategically collect the required energy from the environment, resulting in a longer lifetime.

3.Energy-neutral wireless sensor network based on SWIPT in Wireless Powered Communication Network:

In this work, we introduce a new ENO algorithm. For the energy-neutral performance (ENO) of wireless sensor networks (WSNs), we consider a WSN embedded in a wireless-powered communication network. On this website.

4.LEACH protocol development to improve WSN lifetime:

In this paper, we propose a new approach to achieve better performance of the WSN Network lifetime and data transmission time terms are reduced and represented packet delay time. Wireless Sensor Network (WSN) has become one of the most prominent of them Methods commonly used in agriculture, industrial inspection, and other applications health care and incineration.

So, way waiting join us use this exciting wireless sensor network projects. Through expert guidance and advanced resources, students embark on a journey of discovery, culminating in impactful solutions to today’s challenges. Advance your technical skills with immersive wireless sensor network services from Takeoff Projects. More Info: https://takeoffprojects.com/wireless-sensor-network-projects

Meta Tags: wireless sensor projects, networking projects, engineering projects, final year projects, academic projects,

Enhanced Real-Time Eye Blink Detection Using Deep Learning

In the modern world, where Technology is developing quickly, it is crucial to guarantee efficiency and safety across a range of industries. The detection of eye blinks is one such area where real-time monitoring is essential, especially in applications like driving safety systems, HCIs, and medical monitoring. More complex solutions are necessary as a result of the frequent accuracy and speed issues with traditional methods of eye blink detection. This is the application of deep learning.

Deep learning is a branch of artificial intelligence that draws inspiration from the architecture and operation of neural networks found in the human brain. It has demonstrated impressive potential in improving real-time eye blink detection systems. Researchers have significantly increased accuracy and speed by utilizing deep learning approaches like recurrent neural networks (RNNs) and convolutional neural networks (CNNs).

The capacity of deep learning to automatically identify and extract pertinent features from unprocessed input data, such as pictures or video frames, is one of the main benefits of employing it for eye blink detection. This removes the need for labour-intensive and prone-to-error manual feature engineering. Alternatively, big datasets of annotated eye photos can be used to train deep learning models, which then enable them to recognize intricate patterns and variations linked to various people and environments.

Deep learning models can also be deployed in embedded systems and wearable technology since they can be tuned for real-time inference on devices with limited resources. This makes it possible to monitor eye blink patterns continuously and discreetly, which makes it easier to identify situations like weariness or drowsiness early on and prevent them from impairing performance or safety.

Researchers have put out several architectures and techniques in recent years to improve deep learning-based real-time eye blink detection. These include new network topologies, methods for augmenting data, and optimization plans meant to boost detection systems' effectiveness and accuracy. All things considered, real-time eye blink detection systems could be greatly advanced by using deep learning techniques, opening up new possibilities for safer and more effective human-machine interactions in a variety of contexts. We may anticipate more advancements in this field of study that will help to improve the dependability and efficiency of these vital systems. More Info

https://jpinfotech.org/python-ieee-projects/

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Some of my character design work for our upcoming short film Chrysalide :)

If you want to check out our progress, you can follow us on instagram here!

This afternoon we went to see the 3rd year Illustration show as they released their "Wunderkammer" catalogue. Looking at these amazing works made me think about how we use drawing in our thinking toward uses in the world of work. The Wunderkammer catalogue gets sent to industry companies worldwide from Falmouth with names attached as to the work the students have produced. Just before Christmas last year, I read in the Falmouth weekly email blast that one of the Illustration alumni went on to produce a selection of Christmas stamps for Royal Mail. It really blew me away that such success stories started exactly where I am. I have never really stopped to think about how my own drawing practice could actually make me money going forward. I have never been monetarily minded and if anyone ever wanted something I created I am more than happy to part with it for nothing to make their lives richer for it's presence. I think a big part of this module has made me redress this way of thinking. If I am to pursue a career using my skills going forward, I must think about to market and value my work more closely. I took photos of the ones that really stood out to me: Firstly the image of Medusa framed by meditating women. The re-imagining of mythology is something that is close to me. I had never stopped to re-frame the story of Medusa as a wronged woman, but since the dialogue started by the #MeToo movement has changed so many people's thinking, it's wonderful to embrace these stories anew. The picture captioned "Monsters Don't Exist" also caught my eye, its simplistic drawing speaks of the modern child dismissing the existence of monsters. To me, this made me think about a quote I had heard:

I think that image frames this quote perfectly. We tend to think of monsters as abstract, fictional things, never stopping to think of what inspired the human mind to create them.

Some kids just really don't make it easy

This was meant to be a follow up of this post but I just never got around to finishing it and suddenly it's been a year. Whoops

No text + background under the cut because it was SUCH a pain to make

It's been 17 hours (27 total) I'm not making art ever again ever someone take this phone away from me

Bbygirl,,,

Innovative Project Ideas for Engineering Students

Are you an engineering student looking for some innovative project ideas? Well, you have come to the right place! In this blog post, we will discuss some interesting project ideas that engineering students can work on. One of the most important aspects of being an engineering student is to be able to think creatively and come up with original ideas. This is what sets you apart from the rest and…

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My favorite pieces this year

Best VLSI - Finite State Machines Projects for engineering students

In the dynamic landscape, Finite State Machine Project provide a systematic means of represented the dynamic world of network with a finite number of distinct condition. These states summarize specific design or modes of province that the system may reside at any given moment. Takeoff Edu Group provides this projects with innovative and unique titles. Conversion between states report the growth of the system's behaviour in response to stimuli or events, change the essence of approach dynamics.

Finite State Machines (FSMs) are basic models used in computer science and engineering to understand how systems work. They show the different situations a system can be in, how it changes between these situations, and what actions it takes. Visual diagrams, like state transition diagrams, help us understand FSMs better. These diagrams show how the situations are connected and help us see important points in how the system behaves.

The Example Title of Finite State Machine Project –Takeoff Edu Groups

Trendy:

Fully Automated Traffic Light Controller system for a four-way intersection using Verilog

Experience seamless traffic flow with our Fully Automated Traffic Light Controller system designed for four-way intersections. Built using Verilog, our solution ensures efficient and safe navigation for vehicles and pedestrians alike

Approach for Implementation of Vending Machine through Verilog HDL

Implementing a Vending Machine using Verilog HDL: A robust approach for digital logic design enthusiasts to create efficient vending solutions. Harnessing Verilog HDL's power, this implementation ensures seamless operation and precise functionality

Design and implementation of subway automatic ticketing system based on Verilog HDL

Revolutionize urban commuting with our Verilog HDL-based Subway Automatic Ticketing System. Seamlessly designed and implemented for efficient, hassle-free travel experiences underground. Experience the future of subway ticketing today.

There are two main types of FSMs: deterministic and non-deterministic. Deterministic FSMs have clear rules for how they change between situations. Non-deterministic FSMs have more flexible rules, allowing for different changes from the same situation.

FSMs are useful in many areas, like making software, designing hardware, and building robots. They help us create and understand systems by showing us how they work in different situations. Overall, FSMs are essential tools for engineers to model and understand how systems behave in both theoretical and practical situations.

Finite State Machines projects (FSMs) aren't just models for understanding systems; they're also tools for making new things happen. By using FSMs in Takeoff Edu group and other attempt, we're not just solving problems – we're opening doors to new ideas and progress. As we keep using FSMs to explore and create, we're pushing technology and engineering forward, finding better ways to do things and making exciting discoveries along the way. The Above titles are the examples of Takeoff Edu group Finite State Machines.

Image Processing Project Ideas for Engineering Students

Are you looking for some innovative image processing project ideas? Look no further Takeoff Edu Group! We have compiled a comprehensive list of the best project ideas to get you started.

Image processing is an exciting field that involves transforming images into digital form and then performing various operations to enhance or extract meaningful information from them. It's a vast area that covers diverse applications like computer vision, pattern recognition, computer graphics, and more. As a student, you have a fantastic opportunity to explore and experiment with cutting-edge technologies and create innovative image-processing project ideas that can make a real impact.

Facial and Voice Recognition-Based Security and Safety System in Car

LiFi Communication of Text Audio and Image

Fruit Grading Using CNN

Traffic Monitoring Management System Using Deep Learning

Vehicle Detection Using MATLAB

Text Recognition for Speed Controlling in Vehicle

Real-Time Monitoring of Muscle Fatigue

Face Recognition-Based Voting System

At Takeoff Edu Group, we believe that students have the potential to drive innovation and push the boundaries of what's possible. That's why we offer a wide range of resources and support to help you bring your image processing projects to life. Our team of experts is always on hand to provide guidance and advice, and we offer access to the latest tools and technologies to help you achieve your goals. So why wait? Start exploring these exciting image processing project ideas today and unleash your creativity! Visit more information :- https://takeoffprojects.com/image-processing-project-ideas

Hey guys, it's finally time for a Miraculous Mentor AU webcomic!!! (ﾉ◕ヮ◕)ﾉ*:･ﾟ✧

This 80-page story will explore Felix's backstory as Chat Noir, his relationship with Bridgette and a significant step in his bond with Adrien. I've been working on this project for over a year with the support of my Patreon crew and I'm so excited to finally start releasing it - I really hope you guys enjoy!

Weekly updates each Sunday starting from now! You can also read ahead early on Patreon, and/or buy me a Ko-fi if you'd like to support my work! 💖

Enhancing Security: Building a Face Recognition Door Lock System with Raspberry Pi

In today’s world, security is more critical than ever and Technology keeps developing and becoming more important for home and workplace security. Among the many innovative solutions being utilized today is a Facial Recognition Door Lock System that is powered by a Raspberry Pi, a multi-purpose device. The DIY encryption method is an upscale but affordable way of information protection, promising to turn the security around. At its core, the Face Recognition Door Lock System is based on the computation power of the Raspberry Pi which performs face recognition and verification. A camera module is integrated into the Raspberry Pi system in order for the system to capture the live pictures and run these pictures through facial recognition algorithms in real-time. This way, system can match the captured face with the images in its pre-registered database and therefore allow access to authorized individuals while denying entry to the unauthorized ones. What makes this project special is its flexibility and adaptability. Raspberry Pi's low price and open-source platform make it an excellent choice for DIY lovers who want to explore and configure more sophisticated technologies such as facial recognition. The ease of acquiring the needed pieces of material and the abundance of online resources makes the project approachable, enabling anyone to create a personalized solution. Besides its useful functions, the door lock system with face recognition is an embodiment of the democratization of technology. Raspberry Pi achieves that through enforcing people to create their own security solutions, a culture of innovation and self reliance is created. Furthermore, the adaptability of the system allows users to implement new security features or integration with existing smart homes that eventually joins to the whole simulated security and comfort. In conclusion, the Face Recognition Door Lock System represents a compelling synthesis of technology and security, showcasing the transformative potential of Raspberry Pi. As individuals continue to prioritize security in their homes and workplaces, DIY projects like this offer an accessible and cost-effective means of achieving robust access control. With Raspberry Pi leading the way, the future of security looks brighter than ever. More Info