Welcome to WiMNET 2021

8th International Conference on Wireless and Mobile Network (WiMNET 2021)

October 29 ~ 30, 2021, Vienna, Austria

Accepted Papers
Carenvision: A Data-Driven Machine Learning Framework for Automated Car Value Prediction

TianGe (Terence) Chen1, Angel Chang1, Evan Gunnell2, Yu Sun2, 1Rancho Cucamonga High School, Rancho Cucamonga, CA, 91701, 2California State Polytechnic University, Pomona, CA, 91768

ABSTRACT

When people want to buy or sell a personal car, they struggle to know when the timing is best in order to buy their favorite vehicle for the best price or sell for the most profit. We have come up with a program that can predict each car’s future values based on experts’ opinions and reviews. Our program extracts reviews which undergo sentiment analysis to become our data in the form of positive and negative sentiment. The data is then collected and used to train the Machine Learning model, which will in turn predict the car’s retail price.

KEYWORDS

Machine Learning, Polynomial Regression, Artificial Neural Network.


Very deep convolutional neural network for an automated image classification

M.Dhilsath Fathima and R Hariharan, Assistant Professor, Vel Tech Rangarajan Dr.Sagunthala R&D Institute of Science and Technology, India

ABSTRACT

An automated image classification is an essential task of the computer vision field. The tagging of images in to a set of predefined groups is referred to as image classification. A specific image is being classified into a large number of different cat-egories. The implementation of computer vision to automate image classification would be beneficial because manual image evaluation and identification can be time-consum-ing, particularly when there are many images of different classes. Deep learning ap-proaches are proven to overperform existing machine learning techniques in a number of fields in recent years, and computer vision is one of most notable examples. Com-puter vision utilizes many deep learning techniques to an automated image classifica-tion task. The very deep neural network is a powerful deep learning model for image classification, and this paper examines it briefly using following image datasets. MNIST hand-written digit dataset is used as typical image datasets in this proposed framework to prove the efficacy of very deep neural networks over other deep learning models. An objective of this proposed work is understanding a very deep neural net-work architecture to implement essential image classification tasks: handwritten digit recognition. This paper analyses a very deep neural network architecture to train Con-volutional neural network parameters on the two datasets mentioned above. The feasi-bility of the proposed model is evaluated using classifier performance metrics such as classifier accuracy, standard deviation, and entropy loss. The study results of the very deep neural network model are compared to Convolutional neural network and convo-lutional neural network with batch normalization. According to the results of the com-parison study, very deep neural networks achieve a high accuracy of 98.9% for hand-written datasets and 90.84% classification accuracy for fashion datasets. The outcome of the proposed work is used to interpret how well a very deep neural network performs when comparison to the other two models of deep neural network. This proposed ar-chitecture may be used to automate the classification of handwritten digits classifica-tion.

KEYWORDS

Very deep neural network, Convolutional neural network, batch normali-zation, hand-written digit classification.


Political Correctness: The Effect of Gaming and The Society

Zhengye Shi, Obridge Academy, NY 11801, USA

ABSTRACT

In this article I approach the controversy over ‘political correctness’ (PC) in terms of sociological questions, as follows. 1. Why this apparently focusing in creative output on achieving social change through the gaming industry? 2. How are we to understand the relationships among the chaos of inequality in the gaming industry and putting character distortion (gender, race, ethnicity, sexual orientation)? 3. How do we connect globalization - political correctness to video games? The articles conclude with a discussion and tactics for contesting critiques.

KEYWORDS

Culture, Discourse, Political Correctness, Video Games.


Best Traffic Signs Recognition based on CNN Model for Self-Driving Cars

Said Gadri, Department of Computer Science, Faculty of Mathematics and Computer Sciences, University of M’sila, M’sila, Algeria, 28000

ABSTRACT

Self-Driving Cars or Autonomous Cars provide many benefits for humanity, such as: reduction of deaths and injuries in road accidents, reduction of air pollution, increasing the quality of car control. For this purpose, some cameras or sensors are placed on the car, and an efficient control system must be setup, this system allows to receive images from different cameras and/or sensors in real time especially those representing traffic signs and process them to allows high autonomous control and driving of the car. Among the most promising algorithms used in this field, we find convolutional neural networks CNN. In the present work, we have proposed a CNN model composed of: many convolutional layers, maxpooling layers, and full connected layers. As programming tools, we have used python, Tensorflow and Keras which are currently the most used in the field.

KEYWORDS

machine learning, deep learning, traffic signs recognition, Convolutional Neural Networks, autonomous driving, self-driving cars.


Expert Agriculture Prediction System Using Machine Learning

Rashmika Gamage, Hasitha Rajapaksa, Gimhani Hemachandra, Abhiman Sangeeth and Janaka Wijekoon, Department of Software Engineering, Sri Lanka Institute of Information Technology, Malabe, Sri Lanka

ABSTRACT

Agriculture planning plays a dominant role in economic growth and food security of agriculture-based countries like Sri Lanka. Even though agriculture plays a vital role, there are still several major complications to be addressed. Some of the major complications are lack of knowledge about yield and price prediction, not knowing how to select most suitable crops. Machine learning has a great potential to solve these complications. We have proposed a novel system which consists a mobile application, SMS and API with yield , price prediction and crop optimization. Several machine learning algorithms were used for predictions while a generic algorithm was used to optimize crops. Yield was predicted considering the environmental factors while the price was predicted considering supply and demand, import and export, and seasonal affect. To select the best suitable crops to cultivate, the output of yield and price prediction have been used. The proposed system can be used to support the Agricultural decisions.

KEYWORDS

Machine Learning, Yield Forecasting, Price Forecasting, Genetic Algorithm, Smart Agriculture.


Intelligent Speed Adaptive System using Image Regression Method for Highway and Urban Roads

Bhavesh Sharma1 and Junaid Ali2, 1Department of Electrical, Electronics and Communication Engineering, Engineering College, Ajmer, India, 2Department of Mechanical Engineering, Indian Institute of Technology, Madras, India

ABSTRACT

Intelligent Speed Adaptive System (ISAS) is an emerging technology in the field of autonomous vehicles. However, the public acceptance rate of ISAS is drastically low because of several downfalls i.e. reliability and low accuracy. Various researchers have contributed methodologies to enhance the traffic prediction scores and algorithms to improve the overall adaptability of ISAS. The literature is scarce for Image Regression in this range of application. Computer vision has proved its iota in stream of object detection in self-driving technology in which most of the models are assisted through the complex web of neural nets and live imaging systems. In this article, some major issues related to the present technology of the ISAS and discussed new methodologies to get higher prediction accuracy to control the speed of vehicle through Image Regression technique to develop a computer vision model to predict the speed of vehicle with each frame of live images.

KEYWORDS

Intelligent Systems, Self-Driving Vehicle, Image Processing, Image Regression, Computer Vision, Automotive.


An Algorithm-Adaptive Source Code Converter to Automate the Translation from Python to Java

Eric Jin1 and Yu Sun2, 1Northwood High School, 4515 Portola Parkway, Irvine, CA 92620, 2California State Polytechnic University, Pomona, CA, 91768

ABSTRACT

In the fields of computer science, there exist hundreds of different programming languages. They often have different usage and strength but also have a huge number of overlapping abilities [1]. Especially the kind of general-purpose coding language that is widely used by people, for example Java, Python and C++ [2]. However, there is a lack of comprehensive methods for the conversion for codes from one language to another [3], making the task of converting a program in between multiple coding languages hard and inconvenient. This paper thoroughly explained how my team designs a tool that converts Python source code into Java which has the exact same function and features. We applied this converter, or transpiler, to many Python codes, and successfully turned them into Java codes. Two qualitative experiments were conducted to test the effectiveness of the converter. 1. Converting Python solutions of 5 United States Computer Science Olympic (USACO) problems into Java solutions and conducting a qualitative evaluation of the correctness of the produced solution; 2. converting codes of various lengths from 10 different users to test the adaptability of this converter with randomized input. The results show that this converter is capable of an error rate less than 10% out of the entire code, and the translated code can perform the exact same function as the original code.

KEYWORDS

Algorithm, programing language translation, Python, Java.


Catwalkgrader: A Catwalk Analysis and Correction System using Machine Learning and Computer Vision

Tianjiao Dong1 and Yu Sun2, 1Northwood High School, Irvine, CA 92620, 2California State Polytechnic University, Pomona, CA, 91768

ABSTRACT

In recent years, the modeling industry has attracted many people, causing a drastic increase in the number of modeling training classes. Modeling takes practice, and without professional training, few beginners know if they are doing it right or not. In this paper, we present a real-time 2D model walk grading app based on Mediapipe, a library for real-time, multi-person keypoint detection. After capturing 2D positions of a persons joints and skeletal wireframe from an uploaded video, our app uses a scoring formula to provide accurate scores and tailored feedback to each user for their modeling skills.

KEYWORDS

Runway model, Catwalk Scoring, Flutter, Mediapie.


Using Different Assessment Indicators in Supporting Online Learning

Yew Kee Wong, HuangHuai University, Zhumadian, Henan, China

ABSTRACT

The assessment outcome for many online learning methods are based on the number of correct answers and than convert it into one final mark or grade. We discovered that when using online learning, we can extract more detail information from the learning process and these information are useful for the assessor to plan an effective and efficient learning model for the learner. Statistical analysis is an important part of an assessment when performing the online learning outcome. The assessment indicators include the difficulty level of the question, time spend in answering and the variation in choosing answer. In this paper we will present the findings of these assessment indicators and how it can improve the way the learner being assessed when using online learning system. We developed a statistical analysis algorithm which can assess the online learning outcomes more effectively using quantifiable measurements. A number of examples of using this statistical analysis algorithm are presented.

KEYWORDS

Artificial Intelligence, Assessment Indicator, Online Learning, Statistical Analysis Algorithm.


An Intelligent System to Automate Humidity Monitoring and Humidifier Control using Internet-of-Things (IoT) and Artificial Intelligence

Qian Zhang1 and Yu Sun2, 1Jserra High School, San Juan Capistrano, CA 92675, 2California State Polytechnic University, Pomona, CA, 91768

ABSTRACT

Air conditioners are widely used in family homes all over the world. However, the side effects of using air conditioners and dehumidification can cause health problems if people remain in low-humidity environments. This paper traces the development of a software application and system to create an intelligent humidifier that automatically turns on or off for convenience or for those who cannot engage manual control. We applied our application to a humidifier for several days and conducted a qualitative evaluation of the approach. Results affirmed the usability and capacity of our automatic control system.

KEYWORDS

IoT, Machine Learning, Deep Learning, Artificial Intelligence.


An Intelligent Data-Driven Analytics System to Assist Sports Player Training and Improvement using Internet-Of-Things (IoT) and Big Data Analysis

Julius Wu1, Jerry Wang2, Jonathan Sahagun3 and Yu Sun4, 1Irvine High School, Irvine, USA, 2SMIC Private School, Shanghai, China, 3California State University, Los Angeles, CA, 91706, 4California State Polytechnic University, Pomona, CA, 91768

ABSTRACT

Our product is a very unique tracking tool that not only tracks the movement of players on a map, but also the velocity of each player. We have an application that coaches usually hold onto during a game or a practice. It shows coaches an accurate data sample of where each player is and what they are doing on the field whether it be grinding or fooling around. It also helps coaches see accurate gameplay during a game if the recording is not available. When coaches select elite players, they also get a presentation of each players’ skills and how accurate they are when running different routes.

KEYWORDS

IoT, Machine learning, Data Mining.


Current Security Topics and Evolving Risk Mapping Leveraging LDA Machine Learning Models

Joshua Scarpino, Marymount University, Arlington, Virginia, 22207, USA

ABSTRACT

This is a study around the application of Genism’s LDA model toward identification of critical topics within cybersecurity by leveraging social media user feeds. The research was intended to advance focus around trending topics that are critical within security as the threat landscape evolves. This research provides an op-opportunity to expanded threat intelligence by leveraging security professionals as a critical source of intel. This can help to create focus for security awareness training materials and assist in the possible early identification of emerging threats.

KEYWORDS

Gensim Latent Dirichlet Allocation, Social Media, Security Awareness.


A Data-Driven Method for Capturing Comorbidity Structure in Mental Disorders

Hojjatollah Farahani1, Parviz Azadfallah2, and Peter Watson3, 1,2Department of Psychology, Tarbiat Modares University, Iran, 3Cognition and Brain Unit, University of Cambridge, UK

ABSTRACT

The concurrent presence of a mental disorder with another mental disorder is common in the clinical practice of comorbidity structure research. In this study we look at the structure of the comorbidity, assessing the degree of overlap among the measured signs and symptoms of two mental disorders. In this paper, the newly advanced and graphical statistical method of network analysis is introduced and described. This data driven method helps mind researchers to be able to capture the most important relationships among variables in a complex and complicated system. The stages for running the network analysis using R software are explained. Accuracy testing and stability centrality measures are investigated using bootstrapping. As a practical example, this method was used on the data obtained from 254 Multiple sclerosis (MS) patients to capture the comorbidity structure between depressive and anxiety symptoms. The results are presented and discussed. Network analysis as a data-driven based model can be of interest to all mind researchers especially the researchers working in clinical, cognitive and social psychology.

KEYWORDS

Clinical, Cognitive, Psychology, Network analysis, Statistics, Multiple sclerosis.


Advanced Deep Learning Model

Yew Kee Wong, School of Information Engineering, HuangHuai University, Henan, China

ABSTRACT

Deep learning is a type of machine learning that trains a computer to perform human-like tasks, such as recognizing speech, identifying images or making predictions. Instead of organizing data to run through predefined equations, deep learning sets up basic parameters about the data and trains the computer to learn on its own by recognizing patterns using many layers of processing. This paper aims to illustrate some of the different deep learning algorithms and methods which can be applied to artificial intelligence analysis, as well as the opportunities provided by the application in various decision making domains.

KEYWORDS

Artificial Intelligence, Machine Learning, Deep Learning.


A Mobile Platform for Food Donation and Delivery System using AI and Machine Learning

George Zhou1, Marisabel Chang2 and Yu Sun2, 1USA, 2California State Polytechnic University, Pomona, CA, 91768

ABSTRACT

Within the last year through the turmoil of the Covid-19 pandemic, an increasing number of families and individuals are experiencing food insecurity due to a loss of job, illnesses, or other financial struggles [4]. Many families in the Orange County area and abroad are turning to free food sources such as community food pantries or banks. Using specified surveys to food insecure families, we discovered a need for a solution to enhance the accessibility and usability of food pantries [5]. Therefore, we created a software application that uses artificial intelligence to locate specific items for users to request, and allow volunteers to see those requests and pick up the resources from food pantries, and deliver them directly to the homes of individuals. This paper shows the process in which this idea was created and how it was applied, along with the conduction of the qualitative evaluation of the approach. The results show that the software application allowed families and individuals to receive quality groceries at a much higher frequency, regardless of multiple constraints.

KEYWORDS

Mobile Platform, machine learning, data mining.