IBM Research Research Articles

Role of AI-Driven Personalized E-Learning In Enhancing Economic Competitiveness: A Comparative Analysis of Developed And Developing Countries

This study explores the influence of AI-driven personalized e-learning on the Global Competitiveness Index (GCI) across six countries, comprising three developed (USA, Germany, Japan) and three developing (Pakistan, India and Nigeria) nations, over a span of 17 years (2007-2023). Utilizing a least squares regression model, the analysis incorporates key variables including the Artificial Intelligence Global Index (AIGI), Human Development Index (HDI), and R&D expenditure as control variables to assess their impact on GCI. The model demonstrates a robust fit, with an R2 value of 96.79% and an adjusted R2 value of 96.50%, indicating that AI-enhanced e-learning is a significant predictor as independent variables of economic competitiveness GCI. The findings underscore the significant role of investment in AI and e-learning technologies, particularly in enhancing economic competitiveness, as evidenced by strong positive correlations between GCI and AIGI, HDI, and R&D expenditure. The results are consistent with IBM's research, which highlights the importance of these variables in driving national competitiveness in the global market. The study concludes that AI-driven personalized e-learning is a critical lever for improving GCI, particularly for developing countries aiming to close the competitiveness gap with developed nations. The implications of this research suggest that targeted investments in AI and e-learning can substantially contribute to sustainable economic growth and international competitiveness. This study offers valuable insights for policymakers and educational institutions aiming to enhance their nation's competitiveness through strategic investments in AI-driven educational technologies.

PresAIse, a prescriptive AI solution for enterprise

Prescriptive artificial intelligence (AI) represents a transformative shift in decision-making by offering causal insights and actionable recommendations. Despite its huge potential, enterprise adoption of prescriptive AI faces several challenges. One such challenge is caused by the lack of experimental data for many enterprises, making it hard to attribute differences in outcomes to interventions alone. The second pertains to the explainability of AI recommendations, which is crucial for enterprise decision-making settings. The third challenge is contributed by the silos between technologists and business users, hindering effective collaboration. This paper outlines an initiative from IBM Research, PresAIse, aiming to address some of these challenges by offering a suite of prescriptive AI solutions. Leveraging insights from various research papers, the solutions include scalable causal inference methods, interpretable decision-making approaches, and the integration of large language models (LLMs) to bridge the communication gap via a conversation agent. A proof-of-concept demonstrates the solutions’ potential by enabling non-ML experts to interact with prescriptive AI models via a natural language interface, democratizing advanced analytics for strategic decision-making.

A systematic study on integrating blockchain in healthcare for electronic health record management and tracking medical supplies

In the current landscape of swiftly evolving technology, security remains a paramount concern. Motivated by the challenges presented during pandemics such as COVID-19, this article aims to enhance healthcare transparency and expedite treatment processes. The existing centralized medical data management system scatters patient records across disparate hospitals and pharmacies, prompting the necessity for a patient-centric data repository. The integration of blockchain emerges as a viable solution, giving patients control over their information and facilitating seamless sharing with relevant institutions—be it hospitals, pharmacies, or insurance firms. This article outlines a strategic framework for securing medical data based on comprehensive literature review and proposes measures derived from previous studies. Furthermore, the study explores blockchain's application in tracing medicinal supplies, crucial for detecting counterfeit medications within the supply chain. Detailed elucidation of IBM Research's proposed model highlights the potential of blockchain in this domain. Additionally, an extensive comparative analysis of existing models underscores their strengths and limitations in these healthcare applications. Challenges persist in deploying blockchain in developing countries, primarily due to resource limitations, signalling the need for tailored solutions conducive to such environments. This study serves as an exploration, emphasising the need for continued research and innovation in harnessing blockchain's potential for healthcare transformation.

Data-Rich Causal Inference

Brief Biography: Abhin Shah is a final-year Ph.D. student in the department of Electrical Engineering and Computer Science atMIT, where he is a recipient ofMIT's Jacobs Presidential Fellowship. He has interned with Google Research (2021) and IBM Research (2020).

Essential principles towards improving clinical risk assessment tools: A conversation with Uri Kartoun, PhD

Uri Kartoun (PhD in robotics, Ben Gurion University of the Negev, Israel) is a Staff Research Scientist and an IBM Master Inventor, co-developer of technologies such as MELD-Plus, EMRBots, Memory-memory (M2) Authentication, and Subpopulation-based Feature Selection. Prior to joining IBM Research in 2016, Kartoun worked at Microsoft Health Solutions Group and at Massachusetts General Hospital. EMWA Guest Editor Daniela Kamir, PhD, interviewed Kartoun about clinical risk assessment tools, organ transplant allocation disparities, and how the Model for End-Stage Liver Disease (MELD) score is used to allocate livers for transplantation. The conversation has been edited for brevity and clarity.

Fuelling the Digital Chemistry Revolution with Language Models.

The RXN for Chemistry project, initiated by IBM Research Europe - Zurich in 2017, aimed to develop a series of digital assets using machine learning techniques to promote the use of data-driven methodologies in synthetic organic chemistry. This research adopts an innovative concept by treating chemical reaction data as language records, treating the prediction of a synthetic organic chemistry reaction as a translation task between precursor and product languages. Over the years, the IBM Research team has successfully developed language models for various applications including forward reaction prediction, retrosynthesis, reaction classification, atom-mapping, procedure extraction from text, inference of experimental protocols and its use in programming commercial automation hardware to implement an autonomous chemical laboratory. Furthermore, the project has recently incorporated biochemical data in training models for greener and more sustainable chemical reactions. The remarkable ease of constructing prediction models and continually enhancing them through data augmentation with minimal human intervention has led to the widespread adoption of language model technologies, facilitating the digitalization of chemistry in diverse industrial sectors such as pharmaceuticals and chemical manufacturing. This manuscript provides a concise overview of the scientific components that contributed to the prestigious Sandmeyer Award in 2022.

Quantum programming: Working with IBM’S qiskit tool

One of the greatest technological advancements in the last century lies in digital computer science. The idea of storing information and performing complicated calculations with the help of bits, i.e., 0 and 1. But due to a sudden surge in data, the classical computer system has been becoming weak in data processing. Quantum computers offer promising substantial speedup over classical computers for many applications. Quantum chip fabrication has made remarkable gains in recent years, with the number of qubits and fidelity growing. In general computing, a binary digit is the smallest unit of information or a bit. “In quantum computing, the term Qubit (Quantum Bit) serves the exact function of the term bit.” IBM Research released the IBMQ Experience in 2018, the first quantum computer that anyone can use and make accessible to a huge audience of different countries through cloud access. IBM also introduced the tool QISKIT (Quantum information software kit), which enables teachers, researchers, and developers to write coding and run their coding on quantum machines. It also includes different packages of quantum computing. In this paper, the author has discussed different steps to install qiskit. Mainly this paper focused on the “programming and application side of quantum computing.” Qiskit tools used in the python programming language. The “quantum circuits” are fabricated with the use of quantum gates and favorable algorithms with less execution time

Consideration on the Expression of Amplification Function of PTT with Positive Feedback Circuit Based on Approximated Characteristic Equations of LED and PD

In 1989, B.J. Van Zeghbroeck et al., who was working for IBM Research Center at that time, announced the notion of PTT (Photon Transport Transistor) as an optical coupling device of light emitting diode (LED) and light receiving diode (Photo Diode, PD), where the carrier of the base layer is light (Photon) only. Later, it was theoretically shown that PTT has an amplification function in a positive feedback circuit and works as an extremely low-noise transistor element. In this paper, based on the characteristics of the electronic circuit including the LED and PD, we discuss the expression of the amplification function of the PTT positive feedback circuit. First, we theoretically formulate the fundamental equations for the circuit based on Kirchhoff’s Law and V-I characteristics of LED and PD. Second, we perform the actual circuit operation experiments of PTT positive feedback circuit. Lastly, we analyze the expression of amplification function and its operational behavior based on the measured values in the experiments, using approximated characteristic equations of LED and PD.

Piloting a COVID-19 vaccine chatbot with young adults and health workers in the U.S. to validate usability, credibility, and intention to use.

The COVID-19 pandemic raised novel challenges in communicating reliable, continually changing health information to a broad and sometimes skeptical public, particularly around COVID-19 vaccines, which despite being comprehensively studied were the subject of viral misinformation. Chatbots are a promising technology to reach and engage populations during the pandemic. To inform and communicate effectively with users, chatbots must be highly usable and credible. We sought to understand how young adults and health workers in the U.S. assessed the usability and credibility of a web-based chatbot called Vira, created by the Johns Hopkins Bloomberg School of Public Health and IBM Research using natural language processing technology. Using a mixed-method approach, we sought to rapidly improve Vira's user experience to support vaccine decision-making during the peak of the COVID-19 pandemic. We recruited racially and ethnically diverse young people and health workers, with both groups from urban areas of the U.S. We used the validated Chatbot Usability Questionnaire (CUQ) to understand the tool's navigation, precision, and persona. We also conducted 11 interviews with health workers and young people to understand the user experience, whether they perceived the chatbot as confidential and trustworthy, and how they would use the chatbot. We coded and categorized emerging themes to understand the determining factors for participants' assessment of chatbot usability and credibility. Fifty-eight participants completed an online usability questionnaire and 11 completed in-depth interviews. Most questionnaire respondents (86-88%) said the chatbot was "easy to navigate" and "very easy to use," and many (78%) said responses were relevant. The mean CUQ score was 70.2 ± 12.1 and scores ranged from 40.6 to 95.3. Interview participants felt the chatbot achieved high usability due to its strong functionality, performance, and perceived confidentiality, and that the chatbot could attain high credibility with a redesign of its cartoonish visual persona. Young people said they would use the chatbot to discuss vaccination with hesitant friends or family members, while health workers used or anticipated using the chatbot to support community outreach, save time, and stay up to date. This formative study conducted during the pandemic's peak provided user feedback for an iterative redesign of Vira. Taking a mixed-method approach provided multidimensional feedback, identifying how the chatbot worked well-being easy to use, answering questions appropriately, and using credible branding-while offering tangible steps to improve the product's visual design. Future studies should evaluate how chatbots support personal health decision-making, particularly in the context of a public health emergency, and whether such outreach tools can reduce staff burnout. Randomized studies should also measure how chatbots countering health misinformation affect user knowledge, attitudes, and behavior.

On the potentials of quantum computing – An interview with Heike Riel from IBM Research

In this interview, Dr. Heike Riel, a leading scientist and Fellow at IBM Research, reports on the current state of research in the field of quantum computing. Building on the distinction of gateable quantum computers and quantum annealers, the interview sheds light on how research has evolved on gateable quantum computers, which are the path developed by IBM. These gateable quantum computers are described with their current status as well as the improvements and challenges regarding speed, scale, and quality. All three parameters are important for increasing the performance of these universal quantum computers and for leveraging their potentials compared to classical computers. In particular, complex mathematical problems being present in numerous applications in science and business may be solved. Among the examples mentioned are optimization problems that tend to scale exponentially with the number of parameters, for example, in material and natural sciences or simulation problems in the financial industry and in manufacturing. The interview concludes with a critical assessment of possible risks and expectations for the future.

Preface

The first joint PIXE and IBA conference was due to take place in Toyama, Japan during October 2021. Unfortunately, due to the global pandemic it was decided to hold this meeting virtually and come back to Toyama in 2023 when, we all hope, travel will become a little easier again. Similarly, the 23rd International Secondary Ion Mass Spectrometry Conference (SIMS23) was due to be held in Minneapolis, USA in September 2021 and was postponed to September 2022.The Ion Beam Analysis (IBA) conference has a long history starting in 1973 in June at the IBM Research Labs in Yorktown Heights, NY, USA. The Particle Induced X-Ray (PIXE) conference also has a long history also dating back to the 1970s (it was then the International Conference on Particle Induced X-ray Emission and its Analytical Applications). It was reconfigured in 2010 and the name shortened to just PIXE. Both conferences are now biennial meetings. The previous PIXE meeting was held in Lisbon, Portugal in March 2019 and the previous IBA meeting was held in Antibes, France in October 2019. The SIMS conference series started in 1977 in Munster, Germany and has run biennially since then until this year. The 22nd meeting took place in Kyoto, Japan.Traditionally the IBA conference deals with the science, development, techniques and applications of energetic ion beams for analysis. This has, over the years, become focused on the application of MeV ion beams, their transport and interaction with surfaces and their application on materials analysis with techniques such as RBS, PIXE, NRA, ERD, IBIC, IBIL and MeV-SIMS. The PIXE conference, on the other hand has often focused on a specific theme for each meeting – the previous meeting’s theme was “Unravelling secrets from atoms to planets” and aimed to emphasize the expanding multi-scale scope of the technique, supported by recent developments. The SIMS conference series provides a forum for the exchange of results and new ideas on Secondary Ion Mass Spectrometry and related techniques.List of Organising committee, Co-chairs of joint conference IBA/PIXE&SIMS, Virtual scientific committee, IBA committee, PIXE committee, SIMS International Committee, SIMS International Scientific Committee are available in this Pdf.

The Future of Our Conferences: An Unmissable Opportunity for Outreach? [President’s Message

Welcome to my third column of 2022. It follows the great “President’s Message” invited column by Giovanni Cherubini (IBM Research Zurich, Switzerland) that focused on the impact on big data storage systems of advanced control techniques for magnetic tape drives (see the August 2022 issue of our magazine <xref ref-type="bibr" rid="ref1" xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">[1]</xref> ). Here, I would like to build a virtuous future connection between the Outreach Program of the IEEE Control Systems Society (CSS) and the “new normal” of our conferences I alluded to in my June 2021 “President’s Message” column <xref ref-type="bibr" rid="ref2" xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">[2]</xref> .

Performance-Driven X-Architecture Routing Algorithm for Artificial Intelligence Chip Design in Smart Manufacturing

The new 7-nm Artificial Intelligence (AI) chip is an important milestone recently announced by the IBM research team, with a very important optimization goal of performance. This chip technology can be extended to various business scenarios in the Internet of Things. As the basic model for very large scale integration routing, the Steiner minimal tree can be used in various practical problems, such as wirelength optimization and timing closure. Further considering the X-architecture and the routing resources within obstacles, an effective performance-driven X-architecture routing algorithm for AI chip design in smart manufacturing is proposed to improve the delay performance of the chip. First, a special particle swarm optimization algorithm is presented to solve the discrete length-restricted X-architecture Steiner minimum tree problem in combination with genetic operations, and a particle encoding scheme is presented to encode each particle into an initial routing tree. Second, two lookup tables based on pins and obstacles are established to provide a fast information query for the whole algorithm flow. Third, a strategy of candidate point selection is designed to make the particles satisfy the constraints. Finally, a refinement strategy is implemented to further improve the quality of the final routing tree. Compared with other state-of-the-art algorithms, the proposed algorithm achieves a better total wirelength, which is an important index of performance, thus better satisfying the demand for delay performance of AI chip design in smart manufacturing.

A Study On Green Products &amp; Green Marketing From The Students' Perspective In Kolkata

As society becomes more concerned about environmental protection, numerous firms and customers have expressed their concern for the impact of products on the environment. The emphasis is on 'green' environmentally friendly items that are critical to long-term sustainable development. India is also paying increasing attention to environmentally friendly production and consumption in support of environmental concerns and sustainable growth. One of the reasons for the emergence of green marketing is environmental issues. An IBM research shows, after the pandemic, ninety three (93%) percent of customers changed their attitudes about sustainability (Sharma, 2022). Green marketing is defined by the 'American Marketing Association (AMA) - as the promotion of items that are assumed to be ecologically friendly'. Green marketing and green product creation are effective ways for businesses to obtain a competitive advantage and generate consumer satisfaction (Yan &amp; Yazdanifard, 2014). According to Adams (2020), awareness does not always equal green product purchases (isn't the best predictor of green product sales). Hearing about the green product or brand is insufficient to make a purchase. Familiarity is a higher standard than awareness because it measures the customer's knowledge and understanding of the green product or brand. The researchers believe that green marketing require greater study when it comes to the familiarity and other affecting factors. The study is aimed at to know about students' familiarity and perceptions of green products. Other factors such as willingness to learn more about green marketing, identifying green product features, preferred mode and source of gaining knowledge about green products, consideration of paying extra money to get such products etc. Students studying in undergraduate and post graduate levels in chosen colleges in Kolkata have been considered for this study

Deconstructing mastery in colorectal fluorescence angiography interpretation

IntroductionIndocyanine green fluorescence angiography (ICGFA) is commonly used in colorectal anastomotic practice with limited pre-training. Recent work has shown that there is considerable inconsistency in signal interpretation between surgeons with minimal or no experience versus those consciously invested in mastery of the technique. Here, we deconstruct the fluorescence signal patterns of expert-annotated surgical ICGFA videos to understand better their correlation and combine this with structured interviews to ascertain whether such interpretative capability is conscious or unconscious.MethodsFor fluorescence signal analysis, expert-annotated ICGFA videos (n = 24) were quantitatively interrogated using a boutique intensity tracker (IBM Research) to generate signal time plots. Such fluorescence intensity data were examined for inter-observer correlation (Intraclass Correlation Coefficients, ICC) at specific curve milestones: the maximum fluorescence signal (Fmax), the times to both achieve this maximum (Tmax), as well as half this maximum (T1/2max) and the ratio between these (T1/2/Tmax). Formal tele-interview with contributing experts (n = 6) was conducted with the narrative transcripts being thematically mapped, plotted, and qualitatively analyzed.ResultsCorrelation by mathematical measures was excellent (ICC0.9–1.0) for Fmax, Tmax, and T1/2max (0.95, 0.938, and 0.925, respectively) and moderate (0.5–0.75) for T1/2/Tmax (0.729). While all experts narrated a deliberate viewing strategy, their specific dynamic signal appreciation differed in the manner of description.ConclusionExpert ICGFA users demonstrate high correlation in mathematical measures of their signal interpretation although do so tacitly. Computational quantification of expert behavior can help develop the necessary lexicon and training sets as well as computer vision methodology to better exploit ICGFA technology.

Editorial

Last year, Applied AI Letters announced the formation of its Associate Editorial Board. The purpose of this body was to provide a platform for rising stars in the field of applied AI, to enable them to have a voice in the world of publishing, and so to ensure that Applied AI Letters was a venue which maintained its close connection to the community from which it was born. As part of their role on the Associate Editorial Board, these talented practitioners were asked to go out into the community and find research works, which they felt were particularly exciting and bring them to Applied AI Letters for wider publication and dissemination. Today, I am proud to write this Editorial announcing the first fruit of this effort. In this issue, we can highlight two of these carefully selected pieces of research, chosen by two of our Associate Editorial Board members, Dr Helge Spieker and Dr Philippe Schwaller. Helge is a postdoctoral researcher at Simula Research Laboratory in Norway, whose research interests are in the applications of artificial intelligence and machine learning, especially in the domains of validation and verification of software-based autonomous systems, industrial robotics, and sports. He also maintains an interest in the integration of machine learning and symbolic AI methods, such as constraint programming, to enable robust hybrid intelligent systems that are reliable and robust. Helge has commissioned an article entitled ‘Deep learning to predict power output from respiratory inductive plethysmography data’.1 As we move into an age where our own personal health data are becoming increasingly important to personalise our lifestyles, including exercise regimes, there is a new scrutiny being placed on the equipment, which is required to generate these data. A reliance on expensive equipment could drive inequalities between those who are financially able to partake in this monitoring and those who cannot. This work takes the case of measuring power output, a common metric used to define exercise intensity. Traditional technologies require expensive equipment, which must also be embedded into the technology, which limit usage. In this paper, an AI model based upon respiratory inductive plethysmography (a non-invasive method for monitoring breathing) and heart rate was built and tested against standard sensor-based power output measurements. The model was able to function with low error and provides evidence of the potential for AI methods to democratise data gathering in this field. Philippe Schwaller is an assistant professor at EPFL (Swiss Federal Institute of Technology Lausanne), having previously worked at IBM Research – Europe, in Zurich. He completed a PhD in Chemistry and Molecular Sciences at the University of Bern, an MPhil in Physics at the University of Cambridge, and an MSc in Materials Science & Engineering at EPFL. His main research focus is on accelerating the discovery and synthesis of novel materials and molecules using AI techniques. Philippe has commissioned an article entitled ‘Generative model-enhanced human motion prediction’.2 Generative models are sometimes referred to as computational creativity agents, as they are adept at identifying and plausibly filling in the white space in data. Whilst we are commonly used to seeing these models in technologies such as deep fakes, as part of a generative adversarial network, this paper uses this family of techniques to augment a human motion data set. These data sets are often prone to building models, which have weaknesses to rare events, and for them to be useful in the ‘real world’, it is necessary to build some robustness to these out of distribution events. In this paper, this robustness is achieved by using generative models to enhance the data set with data which more closely represents the true generating distribution. This work shows that this approach can dramatically improve model robustness without a significant performance penalty. I hope that you enjoy these articles, we will continue this series in the next issue with some more articles championed by our associate editors.

Getting Personal: A Deep Learning Artifact for Text-Based Measurement of Personality

Analysts, managers, and policymakers are interested in predictive analytics capable of offering better foresight. It is generally accepted that in forecasting scenarios involving organizational policies or consumer decision making, personal characteristics, including personality, may be an important predictor of downstream outcomes. The inclusion of personality features in forecasting models has been hindered by the fact that traditional measurement mechanisms are often infeasible. Text-based personality detection has garnered attention due to the public availability of digital textual traces, however state-of-the-art models proposed by IBM, Google, Facebook, and academic research are not accurate enough to be used for downstream real-world forecasting tasks. We propose a novel text-based personality measurement approach that improves detection of personality dimensions by 10–20 percentage points relative to the best existing methods developed in industry and academia. Using case studies in the finance and health domains, we show that more accurate text-based personality detection can translate into significant improvements in downstream applications such as forecasting future firm performance or predicting pandemic infection rates. Our findings have important implications for managers focused on enabling, producing, or consuming predictive analytics for enhanced agility in decision making.

Sleep Variability and Cognitive Decline in Aging

<h3>Introduction</h3> An estimated 6.07 million older adults in the US in 2020 had Alzheimer's disease, the most common cause of dementia. With the number of patients doubling every five years worldwide, dementia is a growing public health problem. There is no cure for dementia, but there is promising early evidence of prevention through improving lifestyle factors like sleep. Shorter and longer total sleep time (TST), longer wake after sleep onset (WASO), and lower sleep efficiency have been associated with worse cognitive decline and higher dementia risk. Previously published studies usually assessed mean sleep measures rather than night-to-night changes (i.e., intraindividual variability or IIV). Sleep IIV has been associated with increased pain, neurological problems, depression, and anxiety, but relationships of sleep IIV with cognition have not been studied in older adults. We conducted a cross-sectional study of older adults using wearable sleep sensors and neurocognitive tests. We hypothesized that (1) older age will be associated with increased cognitive impairment, worse mean sleep measures, and increased sleep IIV, (2) worse mean sleep measures will be associated with increased cognitive impairment, and (3) higher sleep IIV will be associated with increased cognitive impairment. <h3>Methods</h3> The study sample included 60 older adults, age range of 68-100 years, residing independently in San Diego County. Mean and IIV (standard deviation) of sleep measures (TST, WASO, sleep efficiency, bed-time, and wake-time) were collected via wrist-worn fitness trackers. The cognitive measures included global cognitive screening (Montreal Cognitive Assessment or MoCA), attention (Wechsler Adult Intelligence Scale-IV– Digit span), and verbal memory (Hopkins Verbal Learning Test – Revised). Spearman's correlations were used to examine age relationships with sleep and cognitive measures. Mann-Whitney U tests were used to compare sleep measures between subgroups based on cognitive impairment. General linear models were used to examine associations between sleep and cognitive measures. <h3>Results</h3> Older age was significantly correlated with earlier mean bed-time (r_s=-0.26, p=0.049), later mean wake-time (r_s=0.40, p=0.001), more impaired MoCA scores (r_s=-0.42, p=0.006), and greater deficits in verbal memory (r_s=0.40, p=0.002), but not with sleep IIV measures or attention scores. The subgroup with impaired attention had significantly higher mean WASO (p=0.034, d=0.28), than the subgroup without attention deficits. The subgroup with impaired verbal memory had significantly earlier mean bed-time (p=0.007, d=0.35) and later mean wake-time (p=0.025, d=0.29), compared to the participants without verbal memory impairments. No differences in sleep measures were found for subgroups based on MoCA score impairment. Poor attention was significantly associated with higher mean and higher IIV WASO (B=0.003, p=0.002, η_p²=0.167 and B=0.003, p=0.001, η_p²=0.192 respectively) as well as with lower mean and higher IIV sleep efficiency (B=-0.012, p=0.032, η_p²=0.087 and B=0.013, p=0.031, η_p²=0.088 respectively), adjusting for race, sex at birth, years of education, and age. Sleep measures (mean and IIV) were not associated with global cognitive impairment or impairment of verbal memory. <h3>Conclusions</h3> Age was associated with sleep-wake cycle differences (bed-time and wake-time) rather than overnight sleep duration or disturbances. Age was correlated with worse MoCA scores and verbal memory but not attention. This is consistent with previous studies that showed an age-related decline of certain cognitive domains (e.g., memory), but not others (e.g., attention). Both mean and IIV measures of sleep disturbances were associated with impaired attention independent of age. Despite using a homogenous sample of modest size, this study suggests a benefit from passive sleep-sensing to identify patients with high mean or IIV sleep disturbances for cognitive testing or interventions. Our results highlight sleep as a target to improve certain domains of cognition in older adults. Future studies are needed to understand how sleep interventions might improve cognition and how sleep impacts other domains of cognition. <h3>This research was funded by</h3> This work was supported by the • IBM Research AI through the AI Horizons Network and IBM-UCSD Artificial Intelligence for Healthy Living Center. • National Institute on Aging T35 grant AG26757 (PI: Dilip V. Jeste, MD and Alison Moore, MD, MPH), and the Stein Institute for Research on Aging and the Center for Healthy Aging at the University of California, San Diego. • National Institute of Mental Health K23 grant K23 MH119375-01 (PI: Ellen Lee, MD) • National Institutes of Health Grant NIH UL1TR001442 of CTSA (PI: Gary Firestein, MD).

Data Quality for AI Tool: Exploratory Data Analysis on IBM API

A huge amount of data is produced in every domain these days. Thus for applying automation on any dataset, the appropriately trained data plays an important role in achieving efficient and accurate results. According to data researchers, data scientists spare 80% of their time in preparing and organizing the data. To overcome this tedious task, IBM Research has developed a Data Quality for AI tool, which has varieties of metrics that can be applied to different datasets (in .csv format) to identify the quality of data. In this paper, we will be representing how the IBM API toolkit will be useful for different variants of datasets and showcase the results for each metrics in graphical form. This paper might be found useful for the readers to understand the working flow of the IBM data purifier tool, thus we have represented the entire flow of how to use IBM data quality for the AI toolkit in the form of architecture.

Review on Advantages of Blue Eyes Technology

Blue eyes technology going to lead the life in near future. This technology works on the concept of artificial intelligence. Its purpose is that computer can work like human. A lot of research work is going on it and IBM research team has already come with this blue eye technology in which a computer can sense human feelings and behaviour and understand it. The purpose of this technology is that it gives human power and abilities to computer so that computer can interact with human similar to that way one human interact with another through speech, facial expressions and touch. All humans understands each other’s feeling and emotions just by reading the facial expressions. This blue eyes technology going to create a computer that can have a human abilities like recognising the facial expressions and understand it and give the result accordingly. Some electronics gadgets are used in blue eyes technology which can sense and control human feelings and emotions. The proper hardware and software are loaded on this system. This technology can be applied everywhere where permanent operator attention required. In this technology, the meaning of blue is Bluetooth connection, eyes means eye movement and technology means techniques. Blue eyes system contains two devices, one is Data Acquisition System (DAU) and other is Central System Unit (CSU) which are connected by Bluetooth. The function of Data acquisition systems is to receive information from the sensor and send it via Bluetooth and also the message from CSU to operator. The CSU gives visualization interface by buffering incoming sensor data.