Scholar Assist (ChatGPT Plugin): Difference between revisions

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==Guide==
==Guide==
===Example Prompts===
===Example Prompts===
Example prompts that utilize the plugin:
Example prompts that utilize the plugin:
#Identify the main conclusions drawn from the research paper titled [your_paper_title_here].
#What methodology is used in the research paper titled [your_paper_title_here]?
#What are the primary weaknesses or limitations mentioned in the research paper titled [your_paper_title_here]?
#Find the most cited academic papers on [your_research_topic_here] from the last [your_time_period_here].
#Compare the findings of the research papers titled [first_paper_title_here] and [second_paper_title_here].
#What are the major debates or controversies in the research papers related to [your_research_topic_here]?
#Identify the most influential authors in the research field of [your_research_topic_here].
#What is the current state of research on [your_research_topic_here] according to recent academic papers?
#Provide the main recommendations or implications discussed in the research paper titled [your_paper_title_here].
#How has the research on [your_research_topic_here] evolved over the last [your_time_period_here]?
#Identify the most cited research papers on [your_research_topic_here].
#Find research papers that critique the work titled [your_paper_title_here].
#Provide a summary of the methodologies used in research papers about [your_research_topic_here].
#Compare the findings of the research papers titled [your_paper_title_1_here] and [your_paper_title_2_here].
#Find the latest research papers authored by [your_author_name_here] on arXiv.
#Extract the conclusion section from the research paper titled [your_paper_title_here].
#What are the applications discussed in the research paper titled [your_paper_title_here]?
#Provide a list of research papers that have cited the paper titled [your_paper_title_here].
#Summarize the literature review section of the research paper titled [your_paper_title_here].
#Find research papers on arXiv that use [your_specific_methodology_here] in [your_research_field_here].


===Example Usage===
===Example Usage===
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</pre>
</pre>


====Request and Response====
====Plugin Request and Response====
'''REQUEST TO SCHOLAR ASSIST'''
'''REQUEST TO SCHOLAR ASSIST'''
<pre>
<pre>

Latest revision as of 01:03, 24 June 2023

Scholar Assist (ChatGPT Plugin)
Scholar Assist.png
Information
Name Scholar Assist
Platform ChatGPT
Model GPT-4
Category Education
Description Search academic research papers from arXiv and find answers to your questions.
Release Date June 4, 2023
Available Yes
Working Yes

Scholar Assist is a Plugin for ChatGPT.

Guide

Example Prompts

Example prompts that utilize the plugin:

  1. Identify the main conclusions drawn from the research paper titled [your_paper_title_here].
  2. What methodology is used in the research paper titled [your_paper_title_here]?
  3. What are the primary weaknesses or limitations mentioned in the research paper titled [your_paper_title_here]?
  4. Find the most cited academic papers on [your_research_topic_here] from the last [your_time_period_here].
  5. Compare the findings of the research papers titled [first_paper_title_here] and [second_paper_title_here].
  6. What are the major debates or controversies in the research papers related to [your_research_topic_here]?
  7. Identify the most influential authors in the research field of [your_research_topic_here].
  8. What is the current state of research on [your_research_topic_here] according to recent academic papers?
  9. Provide the main recommendations or implications discussed in the research paper titled [your_paper_title_here].
  10. How has the research on [your_research_topic_here] evolved over the last [your_time_period_here]?
  11. Identify the most cited research papers on [your_research_topic_here].
  12. Find research papers that critique the work titled [your_paper_title_here].
  13. Provide a summary of the methodologies used in research papers about [your_research_topic_here].
  14. Compare the findings of the research papers titled [your_paper_title_1_here] and [your_paper_title_2_here].
  15. Find the latest research papers authored by [your_author_name_here] on arXiv.
  16. Extract the conclusion section from the research paper titled [your_paper_title_here].
  17. What are the applications discussed in the research paper titled [your_paper_title_here]?
  18. Provide a list of research papers that have cited the paper titled [your_paper_title_here].
  19. Summarize the literature review section of the research paper titled [your_paper_title_here].
  20. Find research papers on arXiv that use [your_specific_methodology_here] in [your_research_field_here].

Example Usage

Prompt

Find research papers on arXiv about machine learning.

ChatGPT Response

Here are some research papers on machine learning from arXiv:

Machine Learning and Deep Learning by Christian Janiesch, Patrick Zschech, and Kai Heinrich

Published on: April 12, 2021
Summary: This paper summarizes the fundamentals of machine learning and deep learning to generate a broader understanding of the methodical underpinning of current intelligent systems. It provides a conceptual distinction between relevant terms and concepts, explains the process of automated analytical model building through machine learning and deep learning, and discusses the challenges that arise when implementing such intelligent systems.
Download PDF
Introduction to Machine Learning: Class Notes 67577 by Amnon Shashua

Published on: April 23, 2009
Summary: This is an introduction to machine learning covering Statistical Inference (Bayes, EM, ML/MaxEnt duality), algebraic and spectral methods (PCA, LDA, CCA, Clustering), and PAC learning (the Formal model, VC dimension, Double Sampling theorem).
Download PDF
Machine Learning-assisted Close-set X-ray Diffraction Phase Identification of Transition Metals by Maksim Zhdanov and Andrey Zhdanov

Published on: April 28, 2023
Summary: This paper describes a method for using machine learning to predict crystal structure phases from X-ray diffraction data of transition metals and their oxides. The proposed machine learning framework achieves competitive performance, demonstrating the potential for machine learning to significantly impact the field of X-ray diffraction and crystal structure determination.
Download PDF
Can Machine Learning be Moral? by Miguel Sicart, Irina Shklovski, and Mirabelle Jones

Published on: December 13, 2021
Summary: This paper explores the ethics of Machine Learning. It scrutinizes techniques, methods, and technical practices in machine learning from a relational ethics perspective, taking into consideration how machine learning systems are part of the world and how they relate to different forms of agency.
Download PDF
When Machine Learning Meets Privacy: A Survey and Outlook by Bo Liu, Ming Ding, Sina Shaham, Wenny Rahayu, Farhad Farokhi, and Zihuai Lin

Published on: November 24, 2020
Summary: This paper surveys the state of the art in privacy issues and solutions for machine learning. It covers three categories of interactions between privacy and machine learning: private machine learning, machine learning aided privacy protection, and machine learning-based privacy attack and corresponding protection schemes.
Download PDF
Please let me know if you need more information on any of these papers.

Plugin Request and Response

REQUEST TO SCHOLAR ASSIST

{
  "query": "machine learning"
}

RESPONSE FROM SCHOLAR ASSIST

{
  "answer": [
    {
      "published": "2021-04-12 09:54:12+00:00",
      "url": "http://arxiv.org/abs/2104.05314v2",
      "download_url": "http://arxiv.org/pdf/2104.05314v2",
      "summary": "Today, intelligent systems that offer artificial intelligence capabilities\noften rely on machine learning. Machine learning describes the capacity of\nsystems to learn from problem-specific training data to automate the process of\nanalytical model building and solve associated tasks. Deep learning is a\nmachine learning concept based on artificial neural networks. For many\napplications, deep learning models outperform shallow machine learning models\nand traditional data analysis approaches. In this article, we summarize the\nfundamentals of machine learning and deep learning to generate a broader\nunderstanding of the methodical underpinning of current intelligent systems. In\nparticular, we provide a conceptual distinction between relevant terms and\nconcepts, explain the process of automated analytical model building through\nmachine learning and deep learning, and discuss the challenges that arise when\nimplementing such intelligent systems in the field of electronic markets and\nnetworked business. These naturally go beyond technological aspects and\nhighlight issues in human-machine interaction and artificial intelligence\nservitization.",
      "title": "Machine learning and deep learning",
      "authors": [
        "Christian Janiesch",
        "Patrick Zschech",
        "Kai Heinrich"
      ]
    },
    {
      "published": "2009-04-23 11:40:57+00:00",
      "url": "http://arxiv.org/abs/0904.3664v1",
      "download_url": "http://arxiv.org/pdf/0904.3664v1",
      "summary": "Introduction to Machine learning covering Statistical Inference (Bayes, EM,\nML/MaxEnt duality), algebraic and spectral methods (PCA, LDA, CCA, Clustering),\nand PAC learning (the Formal model, VC dimension, Double Sampling theorem).",
      "title": "Introduction to Machine Learning: Class Notes 67577",
      "authors": [
        "Amnon Shashua"
      ]
    },
    {
      "published": "2023-04-28 09:29:10+00:00",
      "url": "http://arxiv.org/abs/2305.15410v1",
      "download_url": "http://arxiv.org/pdf/2305.15410v1",
      "summary": "Machine learning has been applied to the problem of X-ray diffraction phase\nprediction with promising results. In this paper, we describe a method for\nusing machine learning to predict crystal structure phases from X-ray\ndiffraction data of transition metals and their oxides. We evaluate the\nperformance of our method and compare the variety of its settings. Our results\ndemonstrate that the proposed machine learning framework achieves competitive\nperformance. This demonstrates the potential for machine learning to\nsignificantly impact the field of X-ray diffraction and crystal structure\ndetermination. Open-source implementation:\nhttps://github.com/maxnygma/NeuralXRD.",
      "title": "Machine learning-assisted close-set X-ray diffraction phase identification of transition metals",
      "authors": [
        "Maksim Zhdanov",
        "Andrey Zhdanov"
      ]
    },
    {
      "published": "2021-12-13 07:20:50+00:00",
      "url": "http://arxiv.org/abs/2201.06921v1",
      "download_url": "http://arxiv.org/pdf/2201.06921v1",
      "summary": "The ethics of Machine Learning has become an unavoidable topic in the AI\nCommunity. The deployment of machine learning systems in multiple social\ncontexts has resulted in a closer ethical scrutiny of the design, development,\nand application of these systems. The AI/ML community has come to terms with\nthe imperative to think about the ethical implications of machine learning, not\nonly as a product but also as a practice (Birhane, 2021; Shen et al. 2021). The\ncritical question that is troubling many debates is what can constitute an\nethically accountable machine learning system. In this paper we explore\npossibilities for ethical evaluation of machine learning methodologies. We\nscrutinize techniques, methods and technical practices in machine learning from\na relational ethics perspective, taking into consideration how machine learning\nsystems are part of the world and how they relate to different forms of agency.\nTaking a page from Phil Agre (1997) we use the notion of a critical technical\npractice as a means of analysis of machine learning approaches. Our radical\nproposal is that supervised learning appears to be the only machine learning\nmethod that is ethically defensible.",
      "title": "Can Machine Learning be Moral?",
      "authors": [
        "Miguel Sicart",
        "Irina Shklovski",
        "Mirabelle Jones"
      ]
    },
    {
      "published": "2020-11-24 00:52:49+00:00",
      "url": "http://arxiv.org/abs/2011.11819v1",
      "download_url": "http://arxiv.org/pdf/2011.11819v1",
      "summary": "The newly emerged machine learning (e.g. deep learning) methods have become a\nstrong driving force to revolutionize a wide range of industries, such as smart\nhealthcare, financial technology, and surveillance systems. Meanwhile, privacy\nhas emerged as a big concern in this machine learning-based artificial\nintelligence era. It is important to note that the problem of privacy\npreservation in the context of machine learning is quite different from that in\ntraditional data privacy protection, as machine learning can act as both friend\nand foe. Currently, the work on the preservation of privacy and machine\nlearning (ML) is still in an infancy stage, as most existing solutions only\nfocus on privacy problems during the machine learning process. Therefore, a\ncomprehensive study on the privacy preservation problems and machine learning\nis required. This paper surveys the state of the art in privacy issues and\nsolutions for machine learning. The survey covers three categories of\ninteractions between privacy and machine learning: (i) private machine\nlearning, (ii) machine learning aided privacy protection, and (iii) machine\nlearning-based privacy attack and corresponding protection schemes. The current\nresearch progress in each category is reviewed and the key challenges are\nidentified. Finally, based on our in-depth analysis of the area of privacy and\nmachine learning, we point out future research directions in this field.",
      "title": "When Machine Learning Meets Privacy: A Survey and Outlook",
      "authors": [
        "Bo Liu",
        "Ming Ding",
        "Sina Shaham",
        "Wenny Rahayu",
        "Farhad Farokhi",
        "Zihuai Lin"
      ]
    }
  ]
}

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