束缚的四型旋转器用于扩展飞行操作，其中通过连接到外部电源的系绳提供了系统的电源。在这项工作中，我们考虑了由单个系绳动力的多个四轮驱动器组成的系统。我们研究影响功率需求的设计因素，例如系绳的电阻，输入电压和四轮驱动器的位置。我们提出了一项分析，以预测为每个Quadcopter的推力提供的一系列n系二极管的所需功率，以确保电气安全性并有助于设计优化。我们发现，由于基本电气限制，推力的临界边界无法超过。我们比较了一个束缚的四轮驱动器和两个束缚四轮驱动器的功耗，并表明，对于距锚点足够远的大型四轮驱动器，一个二极管系统会消耗较小的功率。我们表明，对于一种代表性的消防用例，一个具有两个四轮驱动器的束缚系统比带有一个四轮驱动器的相应系统少消耗26％的功率。最后，我们提出了实验，证明了在混乱的环境中与一四分之一的束缚系统相比，使用两四分之一的束缚系统，例如穿过窗户并将物体抓住障碍物。

折射率是最常见的眼睛障碍，是可更正视觉障碍的关键原因，造成了美国近80％的视觉障碍。可以使用多种方法诊断折射误差，包括主观折射，视网膜镜检查和自动磨蚀器。尽管主观折射是黄金标准，但它需要患者的合作，因此不适合婴儿，幼儿和发育迟缓的成年人。视网膜镜检查是一种客观折射方法，不需要患者的任何输入。但是，视网膜镜检查需要镜头套件和训练有素的检查员，这限制了其用于大规模筛查的使用。在这项工作中，我们通过将智能手机连接到视网膜镜和录制视网膜镜视频与患者戴着定制的纸框架来自动化自动化。我们开发了一个视频处理管道，该管道将视网膜视频视为输入，并根据我们提出的视网膜镜检查数学模型的扩展来估算净屈光度错误。我们的系统减轻了对镜头套件的需求，可以由未经培训的检查员进行。在一项185只眼睛的临床试验中，我们的灵敏度为91.0％，特异性为74.0％。此外，与主观折射测量相比，我们方法的平均绝对误差为0.75 $ \ pm $ 0.67D。我们的结果表明，我们的方法有可能用作现实世界中医疗设置中的基于视网膜镜检查的折射率筛选工具。

水印是保护创作者对数字图像，视频和音频的权利的常用策略。最近，水印方法已扩展到深度学习模型 - 原则上，当对手试图复制该模型时，应保留水印。但是，实际上，智能对手通常可以去除水印。几篇论文提出了水印方法，这些方法声称对不同类型的拆除攻击具有耐药性，但是在面对新的或更好的对手时，这些新技术通常会失败。在本文中，我们提出了一种可认证的水印方法。使用Chiang等人提出的随机平滑技术，我们表明我们的水印是不明显的，除非模型参数的更改超过一定的L2阈值。除了获得认证外，与以前的水印方法相比，我们的水印在经验上也更强。我们的实验可以在https://github.com/arpitbansal297/certified_watermarks上复制。

AI正在经历范式转变，随着模型的兴起（例如Bert，Dall-E，GPT-3），这些模型经过大规模的数据训练，并且可以适应广泛的下游任务。我们称这些模型基础模型来强调其至关重要但不完整的特征。该报告提供了基础模型的机会和风险的详尽说明，包括其功能（例如语言，愿景，机器人技术，推理，人类互动）和技术原则（例如，模型架构，培训程序，数据，系统，安全，安全性，评估，理论）对其应用（例如法律，医疗保健，教育）和社会影响（例如不平等，滥用，经济和环境影响，法律和道德考虑）。尽管基础模型基于标准的深度学习和转移学习，但它们的规模导致了新的新兴能力，以及它们在许多任务中的有效性都激发了同质化。同质化提供了强大的杠杆作用，但要求谨慎，因为基础模型的缺陷均由下游的所有适应模型继承。尽管即将广泛地部署基础模型，但我们目前对它们的工作方式，失败以及由于其新兴属性的影响而缺乏清晰的了解。为了解决这些问题，我们认为基础模型的许多批判性研究都需要与他们的基本社会技术性质相称。

Accurate determination of a small molecule candidate (ligand) binding pose in its target protein pocket is important for computer-aided drug discovery. Typical rigid-body docking methods ignore the pocket flexibility of protein, while the more accurate pose generation using molecular dynamics is hindered by slow protein dynamics. We develop a tiered tensor transform (3T) algorithm to rapidly generate diverse protein-ligand complex conformations for both pose and affinity estimation in drug screening, requiring neither machine learning training nor lengthy dynamics computation, while maintaining both coarse-grain-like coordinated protein dynamics and atomistic-level details of the complex pocket. The 3T conformation structures we generate are closer to experimental co-crystal structures than those generated by docking software, and more importantly achieve significantly higher accuracy in active ligand classification than traditional ensemble docking using hundreds of experimental protein conformations. 3T structure transformation is decoupled from the system physics, making future usage in other computational scientific domains possible.

Variational autoencoders model high-dimensional data by positing low-dimensional latent variables that are mapped through a flexible distribution parametrized by a neural network. Unfortunately, variational autoencoders often suffer from posterior collapse: the posterior of the latent variables is equal to its prior, rendering the variational autoencoder useless as a means to produce meaningful representations. Existing approaches to posterior collapse often attribute it to the use of neural networks or optimization issues due to variational approximation. In this paper, we consider posterior collapse as a problem of latent variable non-identifiability. We prove that the posterior collapses if and only if the latent variables are non-identifiable in the generative model. This fact implies that posterior collapse is not a phenomenon specific to the use of flexible distributions or approximate inference. Rather, it can occur in classical probabilistic models even with exact inference, which we also demonstrate. Based on these results, we propose a class of latent-identifiable variational autoencoders, deep generative models which enforce identifiability without sacrificing flexibility. This model class resolves the problem of latent variable non-identifiability by leveraging bijective Brenier maps and parameterizing them with input convex neural networks, without special variational inference objectives or optimization tricks. Across synthetic and real datasets, latent-identifiable variational autoencoders outperform existing methods in mitigating posterior collapse and providing meaningful representations of the data.

Differentiable Architecture Search (DARTS) has attracted considerable attention as a gradient-based Neural Architecture Search (NAS) method. Since the introduction of DARTS, there has been little work done on adapting the action space based on state-of-art architecture design principles for CNNs. In this work, we aim to address this gap by incrementally augmenting the DARTS search space with micro-design changes inspired by ConvNeXt and studying the trade-off between accuracy, evaluation layer count, and computational cost. To this end, we introduce the Pseudo-Inverted Bottleneck conv block intending to reduce the computational footprint of the inverted bottleneck block proposed in ConvNeXt. Our proposed architecture is much less sensitive to evaluation layer count and outperforms a DARTS network with similar size significantly, at layer counts as small as 2. Furthermore, with less layers, not only does it achieve higher accuracy with lower GMACs and parameter count, GradCAM comparisons show that our network is able to better detect distinctive features of target objects compared to DARTS.

Multiple studies have focused on predicting the prospective popularity of an online document as a whole, without paying attention to the contributions of its individual parts. We introduce the task of proactively forecasting popularities of sentences within online news documents solely utilizing their natural language content. We model sentence-specific popularity forecasting as a sequence regression task. For training our models, we curate InfoPop, the first dataset containing popularity labels for over 1.7 million sentences from over 50,000 online news documents. To the best of our knowledge, this is the first dataset automatically created using streams of incoming search engine queries to generate sentence-level popularity annotations. We propose a novel transfer learning approach involving sentence salience prediction as an auxiliary task. Our proposed technique coupled with a BERT-based neural model exceeds nDCG values of 0.8 for proactive sentence-specific popularity forecasting. Notably, our study presents a non-trivial takeaway: though popularity and salience are different concepts, transfer learning from salience prediction enhances popularity forecasting. We release InfoPop and make our code publicly available: https://github.com/sayarghoshroy/InfoPopularity

Deep learning techniques with neural networks have been used effectively in computational fluid dynamics (CFD) to obtain solutions to nonlinear differential equations. This paper presents a physics-informed neural network (PINN) approach to solve the Blasius function. This method eliminates the process of changing the non-linear differential equation to an initial value problem. Also, it tackles the convergence issue arising in the conventional series solution. It is seen that this method produces results that are at par with the numerical and conventional methods. The solution is extended to the negative axis to show that PINNs capture the singularity of the function at $\eta=-5.69$

The Government of Kerala had increased the frequency of supply of free food kits owing to the pandemic, however, these items were static and not indicative of the personal preferences of the consumers. This paper conducts a comparative analysis of various clustering techniques on a scaled-down version of a real-world dataset obtained through a conjoint analysis-based survey. Clustering carried out by centroid-based methods such as k means is analyzed and the results are plotted along with SVD, and finally, a conclusion is reached as to which among the two is better. Once the clusters have been formulated, commodities are also decided upon for each cluster. Also, clustering is further enhanced by reassignment, based on a specific cluster loss threshold. Thus, the most efficacious clustering technique for designing a food kit tailored to the needs of individuals is finally obtained.