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1. Boosting Federated Domain Generalization: Understanding the Role of Advanced Pre-Trained Architectures

Author

Raha, Avi Deb, Adhikary, Apurba, Gain, Mrityunjoy, Qiao, Yu, and Hong, Choong Seon

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

In this study, we explore the efficacy of advanced pre-trained architectures, such as Vision Transformers (ViT), ConvNeXt, and Swin Transformers in enhancing Federated Domain Generalization. These architectures capture global contextual features and model long-range dependencies, making them promising candidates for improving cross-domain generalization. We conduct a broad study with in-depth analysis and systematically evaluate different variants of these architectures, using extensive pre-training datasets such as ImageNet-1K, ImageNet-21K, JFT-300M, and ImageNet-22K. Additionally, we compare self-supervised and supervised pre-training strategies to assess their impact on FDG performance. Our findings suggest that self-supervised techniques, which focus on reconstructing masked image patches, can better capture the intrinsic structure of images, thereby outperforming their supervised counterparts. Comprehensive evaluations on the Office-Home and PACS datasets demonstrate that adopting advanced architectures pre-trained on larger datasets establishes new benchmarks, achieving average accuracies of 84.46\% and 92.55\%, respectively. Additionally, we observe that certain variants of these advanced models, despite having fewer parameters, outperform larger ResNet models. This highlights the critical role of utilizing sophisticated architectures and diverse pre-training strategies to enhance FDG performance, especially in scenarios with limited computational resources where model efficiency is crucial. Our results indicate that federated learning systems can become more adaptable and efficient by leveraging these advanced methods, offering valuable insights for future research in FDG.

Published
2024

2. A Case Study on Context-Aware Neural Machine Translation with Multi-Task Learning

Author

Appicharla, Ramakrishna, Gain, Baban, Pal, Santanu, Ekbal, Asif, and Bhattacharyya, Pushpak

Subjects
Computer Science - Computation and Language
Abstract

In document-level neural machine translation (DocNMT), multi-encoder approaches are common in encoding context and source sentences. Recent studies \cite{li-etal-2020-multi-encoder} have shown that the context encoder generates noise and makes the model robust to the choice of context. This paper further investigates this observation by explicitly modelling context encoding through multi-task learning (MTL) to make the model sensitive to the choice of context. We conduct experiments on cascade MTL architecture, which consists of one encoder and two decoders. Generation of the source from the context is considered an auxiliary task, and generation of the target from the source is the main task. We experimented with German--English language pairs on News, TED, and Europarl corpora. Evaluation results show that the proposed MTL approach performs better than concatenation-based and multi-encoder DocNMT models in low-resource settings and is sensitive to the choice of context. However, we observe that the MTL models are failing to generate the source from the context. These observations align with the previous studies, and this might suggest that the available document-level parallel corpora are not context-aware, and a robust sentence-level model can outperform the context-aware models., Comment: Accepted to EAMT 2024 (poster)

Published
2024

3. Advancing Ultra-Reliable 6G: Transformer and Semantic Localization Empowered Robust Beamforming in Millimeter-Wave Communications

Author

Raha, Avi Deb, Kim, Kitae, Adhikary, Apurba, Gain, Mrityunjoy, Han, Zhu, and Hong, Choong Seon

Subjects
Computer Science - Networking and Internet Architecture, Electrical Engineering and Systems Science - Signal Processing
Abstract

Advancements in 6G wireless technology have elevated the importance of beamforming, especially for attaining ultra-high data rates via millimeter-wave (mmWave) frequency deployment. Although promising, mmWave bands require substantial beam training to achieve precise beamforming. While initial deep learning models that use RGB camera images demonstrated promise in reducing beam training overhead, their performance suffers due to sensitivity to lighting and environmental variations. Due to this sensitivity, Quality of Service (QoS) fluctuates, eventually affecting the stability and dependability of networks in dynamic environments. This emphasizes a critical need for robust solutions. This paper proposes a robust beamforming technique to ensure consistent QoS under varying environmental conditions. An optimization problem has been formulated to maximize users' data rates. To solve the formulated NP-hard optimization problem, we decompose it into two subproblems: the semantic localization problem and the optimal beam selection problem. To solve the semantic localization problem, we propose a novel method that leverages the K-means clustering and YOLOv8 model. To solve the beam selection problem, we propose a novel lightweight hybrid architecture that combines a lightweight transformer with a CNN architecture through a weighted entropy mechanism. This hybrid architecture utilizes multimodal data sources to dynamically predict the optimal beams. A novel metric, Accuracy-Complexity Efficiency (ACE), has been proposed to quantify this. Six testing scenarios have been developed to evaluate the robustness of the proposed model. Finally, the simulation result demonstrates that the proposed model outperforms several state-of-the-art baselines regarding beam prediction accuracy, received power, and ACE in the developed test scenarios.

Published
2024

4. uTNT: Unikernels for Efficient and Flexible Internet Probing

Author

Letemple, Maxime, Gain, Gaulthier, Mariem, Sami Ben, Mathy, Laurent, and Donnet, Benoit

Subjects
Computer Science - Operating Systems, Computer Science - Networking and Internet Architecture
Abstract

The last twenty years have seen the development and popularity of network measurement infrastructures. Internet measurement platforms have become common and have demonstrated their relevance in Internet understanding and security observation. However, despite their popularity, those platforms lack of flexibility and reactivity, as they are usually used for longitudinal measurements. As a consequence, they may miss detecting events that are security or Internet-related. During the same period, operating systems have evolved to virtual machines (VMs) as self-contained units for running applications, with the recent rise of unikernels, ultra-lightweight VMs tailored for specific applications, eliminating the need for a host OS. In this paper, we advocate that measurement infrastructures could take advantage of unikernels to become more flexible and efficient. We propose uTNT, a proof-of-concept unikernel-based implementation of TNT, a traceroute extension able to reveal MPLS tunnels. This paper documents the full toolchain for porting TNT into a unikernel and evaluates uTNT performance with respect to more traditional approaches. The paper also discusses a use case in which uTNT could find a suitable usage. uTNT source code is publicly available on Gitlab., Comment: 10 pages, 11 figures, IFIP extended-abstract

Published
2024

5. Investigating Automatic Scoring and Feedback using Large Language Models

Author

Katuka, Gloria Ashiya, Gain, Alexander, and Yu, Yen-Yun

Subjects
Computer Science - Computation and Language, Computer Science - Machine Learning
Abstract

Automatic grading and feedback have been long studied using traditional machine learning and deep learning techniques using language models. With the recent accessibility to high performing large language models (LLMs) like LLaMA-2, there is an opportunity to investigate the use of these LLMs for automatic grading and feedback generation. Despite the increase in performance, LLMs require significant computational resources for fine-tuning and additional specific adjustments to enhance their performance for such tasks. To address these issues, Parameter Efficient Fine-tuning (PEFT) methods, such as LoRA and QLoRA, have been adopted to decrease memory and computational requirements in model fine-tuning. This paper explores the efficacy of PEFT-based quantized models, employing classification or regression head, to fine-tune LLMs for automatically assigning continuous numerical grades to short answers and essays, as well as generating corresponding feedback. We conducted experiments on both proprietary and open-source datasets for our tasks. The results show that prediction of grade scores via finetuned LLMs are highly accurate, achieving less than 3% error in grade percentage on average. For providing graded feedback fine-tuned 4-bit quantized LLaMA-2 13B models outperform competitive base models and achieve high similarity with subject matter expert feedback in terms of high BLEU and ROUGE scores and qualitatively in terms of feedback. The findings from this study provide important insights into the impacts of the emerging capabilities of using quantization approaches to fine-tune LLMs for various downstream tasks, such as automatic short answer scoring and feedback generation at comparatively lower costs and latency.

Published
2024

6. CCC++: Optimized Color Classified Colorization with Segment Anything Model (SAM) Empowered Object Selective Color Harmonization

Author

Gain, Mrityunjoy, Raha, Avi Deb, and Debnath, Rameswar

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

In this paper, we formulate the colorization problem into a multinomial classification problem and then apply a weighted function to classes. We propose a set of formulas to transform color values into color classes and vice versa. To optimize the classes, we experiment with different bin sizes for color class transformation. Observing class appearance, standard deviation, and model parameters on various extremely large-scale real-time images in practice we propose 532 color classes for our classification task. During training, we propose a class-weighted function based on true class appearance in each batch to ensure proper saturation of individual objects. We adjust the weights of the major classes, which are more frequently observed, by lowering them, while escalating the weights of the minor classes, which are less commonly observed. In our class re-weight formula, we propose a hyper-parameter for finding the optimal trade-off between the major and minor appeared classes. As we apply regularization to enhance the stability of the minor class, occasional minor noise may appear at the object's edges. We propose a novel object-selective color harmonization method empowered by the Segment Anything Model (SAM) to refine and enhance these edges. We propose two new color image evaluation metrics, the Color Class Activation Ratio (CCAR), and the True Activation Ratio (TAR), to quantify the richness of color components. We compare our proposed model with state-of-the-art models using six different dataset: Place, ADE, Celeba, COCO, Oxford 102 Flower, and ImageNet, in qualitative and quantitative approaches. The experimental results show that our proposed model outstrips other models in visualization, CNR and in our proposed CCAR and TAR measurement criteria while maintaining satisfactory performance in regression (MSE, PSNR), similarity (SSIM, LPIPS, UIUI), and generative criteria (FID)., Comment: arXiv admin note: text overlap with arXiv:2403.01476

Published
2024

7. CCC: Color Classified Colorization

Author

Gain, Mrityunjoy, Raha, Avi Deb, and Debnath, Rameswar

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Automatic colorization of gray images with objects of different colors and sizes is challenging due to inter- and intra-object color variation and the small area of the main objects due to extensive backgrounds. The learning process often favors dominant features, resulting in a biased model. In this paper, we formulate the colorization problem into a multinomial classification problem and then apply a weighted function to classes. We propose a set of formulas to transform color values into color classes and vice versa. Class optimization and balancing feature distribution are the keys for good performance. Observing class appearance on various extremely large-scale real-time images in practice, we propose 215 color classes for our colorization task. During training, we propose a class-weighted function based on true class appearance in each batch to ensure proper color saturation of individual objects. We establish a trade-off between major and minor classes to provide orthodox class prediction by eliminating major classes' dominance over minor classes. As we apply regularization to enhance the stability of the minor class, occasional minor noise may appear at the object's edges. We propose a novel object-selective color harmonization method empowered by the SAM to refine and enhance these edges. We propose a new color image evaluation metric, the Chromatic Number Ratio (CNR), to quantify the richness of color components. We compare our proposed model with state-of-the-art models using five different datasets: ADE, Celeba, COCO, Oxford 102 Flower, and ImageNet, in both qualitative and quantitative approaches. The experimental results show that our proposed model outstrips other models in visualization and CNR measurement criteria while maintaining satisfactory performance in regression (MSE, PSNR), similarity (SSIM, LPIPS, UIQI), and generative criteria (FID).

Published
2024

13. Differential carbonic anhydrase activities control EBV-induced B-cell transformation and lytic cycle reactivation.

Author

Malik, Samaresh, Biswas, Joyanta, Sarkar, Purandar, Nag, Subhadeep, Ghosh Roy, Shatadru, Bhattacharya, Bireswar, Ghosh, Dipanjan, Saha, Abhik, and Gain, Chandrima

Abstract

Epstein-Barr virus (EBV) contributes to ~1% of all human cancers including several B-cell neoplasms. A characteristic feature of EBV life cycle is its ability to transform metabolically quiescent B-lymphocytes into hyperproliferating B-cell blasts with the establishment of viral latency, while intermittent lytic cycle induction is necessary for the production of progeny virus. Our RNA-Seq analyses of both latently infected naïve B-lymphocytes and transformed B-lymphocytes upon lytic cycle replication indicate a contrasting expression pattern of a membrane-associated carbonic anhydrase isoform CA9, an essential component for maintaining cell acid-base homeostasis. We show that while CA9 expression is transcriptionally activated during latent infection model, lytic cycle replication restrains its expression. Pharmacological inhibition of CA-activity using specific inhibitors retards EBV induced B-cell transformation, inhibits B-cells outgrowth and colony formation ability of transformed B-lymphocytes through lowering the intracellular pH, induction of cell apoptosis and facilitating degradation of CA9 transcripts. Reanalyses of ChIP-Seq data along with utilization of EBNA2 knockout virus, ectopic expression of EBNA2 and sh-RNA mediated knockdown of CA9 expression we further demonstrate that EBNA2 mediated CA9 transcriptional activation is essential for EBV latently infected B-cell survival. In contrast, during lytic cycle reactivation CA9 expression is transcriptionally suppressed by the key EBV lytic cycle transactivator, BZLF1 through its transactivation domain. Overall, our study highlights the dynamic alterations of CA9 expression and its activity in regulating pH homeostasis act as one of the major drivers for EBV induced B-cell transformation and subsequent B-cell lymphomagenesis.

Published
2024

14. Universal Adversarial Framework to Improve Adversarial Robustness for Diabetic Retinopathy Detection

Author

Mukherjee, Samrat, Bandyopadhyay, Dibyanayan, Gain, Baban, and Ekbal, Asif

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Diabetic Retinopathy (DR) is a prevalent illness associated with Diabetes which, if left untreated, can result in irreversible blindness. Deep Learning based systems are gradually being introduced as automated support for clinical diagnosis. Since healthcare has always been an extremely important domain demanding error-free performance, any adversaries could pose a big threat to the applicability of such systems. In this work, we use Universal Adversarial Perturbations (UAPs) to quantify the vulnerability of Medical Deep Neural Networks (DNNs) for detecting DR. To the best of our knowledge, this is the very first attempt that works on attacking complete fine-grained classification of DR images using various UAPs. Also, as a part of this work, we use UAPs to fine-tune the trained models to defend against adversarial samples. We experiment on several models and observe that the performance of such models towards unseen adversarial attacks gets boosted on average by $3.41$ Cohen-kappa value and maximum by $31.92$ Cohen-kappa value. The performance degradation on normal data upon ensembling the fine-tuned models was found to be statistically insignificant using t-test, highlighting the benefits of UAP-based adversarial fine-tuning.

Published
2023

17. Reference Free Domain Adaptation for Translation of Noisy Questions with Question Specific Rewards

Author

Gain, Baban, Appicharla, Ramakrishna, Chennabasavaraj, Soumya, Garera, Nikesh, Ekbal, Asif, and Chelliah, Muthusamy

Subjects
Computer Science - Computation and Language, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

Community Question-Answering (CQA) portals serve as a valuable tool for helping users within an organization. However, making them accessible to non-English-speaking users continues to be a challenge. Translating questions can broaden the community's reach, benefiting individuals with similar inquiries in various languages. Translating questions using Neural Machine Translation (NMT) poses more challenges, especially in noisy environments, where the grammatical correctness of the questions is not monitored. These questions may be phrased as statements by non-native speakers, with incorrect subject-verb order and sometimes even missing question marks. Creating a synthetic parallel corpus from such data is also difficult due to its noisy nature. To address this issue, we propose a training methodology that fine-tunes the NMT system only using source-side data. Our approach balances adequacy and fluency by utilizing a loss function that combines BERTScore and Masked Language Model (MLM) Score. Our method surpasses the conventional Maximum Likelihood Estimation (MLE) based fine-tuning approach, which relies on synthetic target data, by achieving a 1.9 BLEU score improvement. Our model exhibits robustness while we add noise to our baseline, and still achieve 1.1 BLEU improvement and large improvements on TER and BLEURT metrics. Our proposed methodology is model-agnostic and is only necessary during the training phase. We make the codes and datasets publicly available at \url{https://www.iitp.ac.in/~ai-nlp-ml/resources.html#DomainAdapt} for facilitating further research., Comment: Published at: Findings of EMNLP 2023

Published
2023

18. Loupe: Driving the Development of OS Compatibility Layers

Author

Lefeuvre, Hugo, Gain, Gaulthier, Bădoiu, Vlad-Andrei, Dinca, Daniel, Schiller, Vlad-Radu, Raiciu, Costin, Huici, Felipe, and Olivier, Pierre

Subjects
Computer Science - Operating Systems
Abstract

Supporting mainstream applications is fundamental for a new OS to have impact. It is generally achieved by developing a layer of compatibility allowing applications developed for a mainstream OS like Linux to run unmodified on the new OS. Building such a layer, as we show, results in large engineering inefficiencies due to the lack of efficient methods to precisely measure the OS features required by a set of applications. We propose Loupe, a novel method based on dynamic analysis that determines the OS features that need to be implemented in a prototype OS to bring support for a target set of applications and workloads. Loupe guides and boosts OS developers as they build compatibility layers, prioritizing which features to implement in order to quickly support many applications as early as possible. We apply our methodology to 100+ applications and several OSes currently under development, demonstrating high engineering effort savings vs. existing approaches: for example, for the 62 applications supported by the OSv kernel, we show that using Loupe, would have required implementing only 37 system calls vs. 92 for the non-systematic process followed by OSv developers. We study our measurements and extract novel key insights. Overall, we show that the burden of building compatibility layers is significantly less than what previous works suggest: in some cases, only as few as 20% of system calls reported by static analysis, and 50% of those reported by naive dynamic analysis need an implementation for an application to successfully run standard benchmarks., Comment: Accepted to appear at ASPLOS'24 (https://www.asplos-conference.org/asplos2024/)

Published
2023

19. The Role of the NRF2 Pathway in the Pathogenesis of Viral Respiratory Infections

Author

Daskou, Maria, Abadi, Leila Fotooh, Gain, Chandrima, Wong, Michael, Sharma, Eashan, Kombe, Arnaud John Kombe, Nanduri, Ravikanth, and Kelesidis, Theodoros

Subjects
Medical Microbiology, Biomedical and Clinical Sciences, Pneumonia & Influenza, Lung, Infectious Diseases, Influenza, 2.1 Biological and endogenous factors, 2.2 Factors relating to the physical environment, Aetiology, Infection, Good Health and Well Being, NRF2 pathway, respiratory viruses, viral replication, inflammation, Immunology, Microbiology, Medical microbiology
Abstract

In humans, acute and chronic respiratory infections caused by viruses are associated with considerable morbidity and mortality. Respiratory viruses infect airway epithelial cells and induce oxidative stress, yet the exact pathogenesis remains unclear. Oxidative stress activates the transcription factor NRF2, which plays a key role in alleviating redox-induced cellular injury. The transcriptional activation of NRF2 has been reported to affect both viral replication and associated inflammation pathways. There is complex bidirectional crosstalk between virus replication and the NRF2 pathway because virus replication directly or indirectly regulates NRF2 expression, and NRF2 activation can reversely hamper viral replication and viral spread across cells and tissues. In this review, we discuss the complex role of the NRF2 pathway in the regulation of the pathogenesis of the main respiratory viruses, including coronaviruses, influenza viruses, respiratory syncytial virus (RSV), and rhinoviruses. We also summarize the scientific evidence regarding the effects of the known NRF2 agonists that can be utilized to alter the NRF2 pathway.

Published
2024

21. Factors influencing nursing professionalism among nursing students in South Korea: a descriptive study

Author

Bokyoung Kim, Jiyoon Park, Seon Woo Ko, Na Yeon Kim, Jiyeon Park, and Gain Seo

Subjects
career, image, nursing, personal satisfaction, professionalism, Medicine
Abstract

Purpose This study aims to explore the factors influencing nursing professionalism among nursing students, focusing on the image of nurses, satisfaction with their major, and career metacognition. Methods We conducted a descriptive survey with 185 nursing students from D city and K region on June 10–30, 2024. Data were analyzed using IBM SPSS ver. 27.0 (IBM Corp.), employing descriptive statistics, t tests, one-way ANOVA, Scheffé tests, Pearson’s correlation coefficients, and regression analysis. Multiple linear regression analysis was used to identify factors affecting nursing professionalism among nursing students. Results The regression analysis revealed that the image of nurses (β=.69, p

Published
2024
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22. Informality as a Resource: A Systems-Theoretical Take on the Open Method of Coordination in Education

Author

Vivien Gain

Abstract

Several authors have underlined that processes of Europeanisation of education emerge despite the European Union's lack of formal power in this area. This article argues on the contrary that its lack of power precisely enables the EU to open up a range of possibilities for its involvement in this sector, among which the ET2020 Working Groups (WG) of the Open Method of Coordination (OMC). Based on observations of WG meetings and interviews with key actors, and using Niklas Luhmann's systems-theory, we aim to show how the distance separating the ET2020 WG from the formal circuits of European decision-making acts as a resource for the development of a European discourse on education. Alongside the ordinary legislative procedure based on voting and implementing collectively binding decisions, the alternative political circuit of the OMC is based on the irritation of a set of education sector stakeholders through the creation and dissemination of reports of 'good practices'. In doing so, the ET2020 Working Groups illustrate how politics transforms itself and redefines its boundaries when it is structured at the European level rather than at the level of the nation-state.

Published
2024
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23. Impact of Visual Context on Noisy Multimodal NMT: An Empirical Study for English to Indian Languages

Author

Gain, Baban, Bandyopadhyay, Dibyanayan, Mukherjee, Samrat, Adak, Chandranath, and Ekbal, Asif

Subjects
Computer Science - Computation and Language, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition
Abstract

The study investigates the effectiveness of utilizing multimodal information in Neural Machine Translation (NMT). While prior research focused on using multimodal data in low-resource scenarios, this study examines how image features impact translation when added to a large-scale, pre-trained unimodal NMT system. Surprisingly, the study finds that images might be redundant in this context. Additionally, the research introduces synthetic noise to assess whether images help the model deal with textual noise. Multimodal models slightly outperform text-only models in noisy settings, even with random images. The study's experiments translate from English to Hindi, Bengali, and Malayalam, outperforming state-of-the-art benchmarks significantly. Interestingly, the effect of visual context varies with source text noise: no visual context works best for non-noisy translations, cropped image features are optimal for low noise, and full image features work better in high-noise scenarios. This sheds light on the role of visual context, especially in noisy settings, opening up a new research direction for Noisy Neural Machine Translation in multimodal setups. The research emphasizes the importance of combining visual and textual information for improved translation in various environments.

Published
2023

24. A Case Study on Context Encoding in Multi-Encoder based Document-Level Neural Machine Translation

Author

Appicharla, Ramakrishna, Gain, Baban, Pal, Santanu, and Ekbal, Asif

Subjects
Computer Science - Computation and Language
Abstract

Recent studies have shown that the multi-encoder models are agnostic to the choice of context, and the context encoder generates noise which helps improve the models in terms of BLEU score. In this paper, we further explore this idea by evaluating with context-aware pronoun translation test set by training multi-encoder models trained on three different context settings viz, previous two sentences, random two sentences, and a mix of both as context. Specifically, we evaluate the models on the ContraPro test set to study how different contexts affect pronoun translation accuracy. The results show that the model can perform well on the ContraPro test set even when the context is random. We also analyze the source representations to study whether the context encoder generates noise. Our analysis shows that the context encoder provides sufficient information to learn discourse-level information. Additionally, we observe that mixing the selected context (the previous two sentences in this case) and the random context is generally better than the other settings., Comment: Accepted to MT Summit 2023 (oral)

Published
2023

25. Gastric Amyloidosis—a Case Report

Author

Kibria, Golam, Khalil, Musab, Saha, Tanmoy, Hossain, Anwar, Gain, Gobinda, Miah, Shah Alam, Datta, Raj, Alam, Jan E., Khan, Sharmin Tahmina, Akter, Dilruba, Islam, Mohammad Shahidul, and Akhter, Tuhin

Published
2024
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34. Aesthetic Inquiry for Bicultural Arts Education in Aotearoa New Zealand

Author

Gain, Priya

Abstract

This paper uses an arts-based learning encounter at a marae-based wananga as a starting point for exploring the potential of aesthetic inquiry to support dynamic and always evolving relationality between people and place. The work of two researchers, Maori writer and scholar Cassandra Barnett and Irish inter-cultural researcher Sharon Todd, is discussed as examples of critical aesthetic inquiries that open new possibilities for relationality between people and place through encounters with artworks. Maxine Greene's definition of aesthetic inquiry, as distinct from an "arts as connoisseurship" approach, is utilised to encourage a greater awareness among arts educators of the limitations and potential risks of liberal multicultural approaches in arts education. With increasing pressures to fast track the decolonising and indigenising of curriculum in New Zealand education, I discuss the importance of mitigating the risks of uncritically transferring indigenous Maori concepts and material into mainstream classrooms. New insights are offered into how aesthetic inquiry in arts based pedagogy and curriculum can support learners to sit with the complexities that come with a settler-indigenous history.

Published
2022

35. Upholding Indigenous Difference in Arts Education: Noho Marae Wananga as Akin to a 'Mana of Economy' in Education

Author

Gain, Priya, McDonald, Christian, Sarich, Wiremu, and Kahukiwa, Kelly

Abstract

In this paper we consider how recent taonga puoro noho marae wananga, in the Far North district of Aotearoa New Zealand, have much to offer the growth and development of bicultural relational engagement in arts education. The nga toi Maori authors highlight their aspirations, as leaders of recent hui wananga initiatives in Te Hiku o Te Ika (the region of the "tail of the fish" at the top of the North Island). This includes aspirations to recognise noho marae wananga as important self-determining spaces that support the evolution of indigenous paradigms and the growth of music education from a distinctly Maori ontological foundation. Together we advocate for what Moana Jackson calls an "ethic of restoration" and argue that when priority is given to the recognition and support of Maori led educational initiatives, such as noho marae wananga, generative and mutually beneficial bicultural relationships are better enabled. The authors revisit Te Mauri Pakeaka, an arts education marae wananga initiative which ran through the 1980s, and consider hui wananga for their potential to support new forms of bicultural relational engagement in arts education in the future.

Published
2022

36. A trait-based approach to quantify ecosystem services delivery potentials in the Sundarbans mangrove forest of Bangladesh

Author

Md Monzer Hossain Sarker, Animesh K. Gain, Nirmal K. Paul, and Shekhar R. Biswas

Subjects
Mangrove ecosystem, Ecosystem services, Plant functional traits, Sundarbans, Ecology, QH540-549.5
Abstract

An ecosystem’s potential to deliver goods and services, primarily determined by the functional traits of the species, is crucial for assessing its health and conservation value. This study uses a trait-based approach to evaluate the spatial and temporal variation in the ecosystem services delivery potentials (ESDPs) of the Sundarbans mangrove. We analyzed abundance data from 81 permanent sample plots (PSPs), spread over different saline zones, collected between 1986 and 2014, paired with species-specific plant functional traits. Seventeen traits were examined, with species-level data sourced from secondary literature, linking traits to ecosystem services. Study revealed that plant height, specific leaf area, and root length are key traits for assessing ESDPs. The Sundarbans’ ESDPs varied spatially across different saline zones but remained stable over time. Notably, ESDPs were significantly higher in low saline zones compared to ESDPs in high saline zones. This spatial variation is partly explained by differences in plant species composition among saline zones and the relatively stable species composition over time. Results from mixed effect models showed that PSP as a random factor for all four models is attributed to the nested effect. The study highlights the value of functional traits in ecosystem service assessments, providing a robust method to predict how changes in biodiversity and environmental conditions affect service delivery. The observed trend of decreasing ESDPs with increasing salinity offers insights into the potential impacts of sea-level rise on mangrove forest functions. These findings are essential for developing conservation strategies and policies to preserve the Sundarbans’ ecological integrity and support local livelihoods. This research advocates for a trait-based framework as a critical tool for the sustainable management of mangrove ecosystems globally.

Published
2024
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46. Data-Driven Approach for Identification of Damage in Composites

Author

Gain, Supriya, Basu, Subhadeep, Sinharay, Arijit, Chakravarty, Tapas, Pal, Arpan, Chaari, Fakher, Series Editor, Gherardini, Francesco, Series Editor, Ivanov, Vitalii, Series Editor, Haddar, Mohamed, Series Editor, Cavas-Martínez, Francisco, Editorial Board Member, di Mare, Francesca, Editorial Board Member, Kwon, Young W., Editorial Board Member, Tolio, Tullio A. M., Editorial Board Member, Trojanowska, Justyna, Editorial Board Member, Schmitt, Robert, Editorial Board Member, Xu, Jinyang, Editorial Board Member, Ghose, Bikash, editor, Mulaveesala, Ravibabu, editor, and Mylavarapu, Phani, editor

Published
2024
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47. A Deep Learning Method for Obfuscated Android Malware Detection

Author

Dasiah, Nitin Benjamin, Gain, Ritu, Sabarisrinivas, V., Sitara, K., Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Chauhan, Naveen, editor, Yadav, Divakar, editor, Verma, Gyanendra K., editor, Soni, Badal, editor, and Lara, Jorge Morato, editor

Published
2024
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48. Genetic Improvement of Rural Landraces Through Mutation Research

Author

Siddique, Abu Bakar, Rahman, Md. Zahidur, Gain, Niloy, Rahman, Jamilur, Amer, Mourad, Series Editor, Pollice, Fabio, Editorial Board Member, Darko, Amos, Editorial Board Member, Ujang, Muhamad Uznir, Editorial Board Member, Rodrigo-Comino, Jesús, Editorial Board Member, El Kaftangui, Mohamed, Editorial Board Member, Battisti, Alessandra, Editorial Board Member, Albatayneh, Aiman, Editorial Board Member, Turan, Veysel, Editorial Board Member, Doronzo, Domenico M., Editorial Board Member, Morsy, Alaa M., Editorial Board Member, Yehia, Moustafa, Editorial Board Member, Di Stefano, Elisabetta, Editorial Board Member, Salih, Gasim Hayder Ahmed, Editorial Board Member, Michel, Mina, Editorial Board Member, Vishwakarma, Vinita, Editorial Board Member, Mortada, Ashraf, Editorial Board Member, Mehmet, Alkan, Editorial Board Member, Jat, Mahesh Kumar, Editorial Board Member, Gallo, Paola, Editorial Board Member, AREF, M. M. El, Editorial Board Member, Hamimi, Zakaria, Editorial Board Member, Elewa, Ahmed Kalid, Editorial Board Member, Trapani, Ferdinando, Editorial Board Member, Alberti, Francesco, Editorial Board Member, Maarouf, Ibrahim, Editorial Board Member, Soliman, Akram M., Editorial Board Member, and Kumar, Nitish, editor

Published
2024
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