Abstract: Resampling methods are an indispensable tool in today’s modern statistics. They involve repeatedly drawing samples from a training set and refitting a model of interest on each sample in order to obtain additional information about the fitted model. These approaches may allow us to obtain information that would not be available from fitting the model only once using the original training sample. Resampling approaches can be computationally expensive, because they involve fitting the same statistical method multiple times using different subsets of the training data. However, due to recent advances in computing power, the computational requirements of resampling methods generally are not prohibitive. My talk is confined to elaborate the two of the most commonly used resampling methods, cross-validation and the bootstrap, along with case study using R tool. Both methods are important tools in the practical application of many learning procedures.
The world has witnessed a tremendous growth of Internet of Things (IoT). A huge number of
devices are now connected through the Internet for providing instant services to the end users in
various application domains such as in smart cities, autonomous vehicles, smart home devices,
e-healthcare, map services and so on. For the last decade, cloud computing played an important
role to provide such high demand services through various data centers that are built by Amazon,
Microsoft, Google, IBM etc. However, cloud computing suffers from many limitations such as
latency, traffic congestion, processing of massive data, and communication cost and this is mainly
due to a large distance between the end users and the cloud data centers. Fog computing has
emerged as an essential paradigm to resolve these challenges faced by the traditional cloud
computing by extending facilities of storage, computation and communication toward the edge of
a network. In the recent years, fog computing has become one of the most popular technologies
that supports geographically distributed, latency sensitive, and QoS-aware IoT applications in both
time and cost effective manner.
In this talk, my presentation will begin with an introduction to fog computing by quoting the necessary background and motivation of this paradigm. Next, I will discuss about various proposed fog-based architectures with their merits and demerits. This will be followed by the most important algorithmic part of fog computing, i.e., task offloading in which a brief survey of various proposed algorithms will be presented. The session will be ended by applications and future research directions of fog computing.
Abstract: The Internet of things (IoT) devices that have taken the world by storm need computational power and storage capacity for the huge amount of data generated by them to provide the services to their subscribers. Currently, Cloud computing, Edge computing, and Fog computing are the potential paradigms that could fulfill the demand of these subscribers. Cloud computing is the on-demand availability of computer system resources, especially data storage and computing power, without direct active management by the user. However, it introduces high communication latency as the cloud servers are far away from the end-users or subscribers. The communication latency limitations of some applications are very strict which makes the cloud computing paradigm unsuitable for them. This is where edge and fog computing models come into the play key role as they can provide similar services with lower latency as they are closer to users as compared to the clouds. However, both edge and fog have also certain limitations while providing services such as capacity, capability, and coverage. For the above-discussed issues, federation comes into play a key role to resolve them. As federation can help one service provider to extend its capacity, capability and service limitations to satisfy their users' demands. Again based on the users’ demand type of input request can be classified as ultra-low, low and loose latency tasks. Such tasks can affect various offloading scenarios between clouds, edges, and fogs. For example, when there is a capacity limitation on the edge, the edge can offload its loose latency tasks to the clouds. And in some cases, the cloud can offload the highly time-sensitive data to the edges to reduce the communication latency and cost. In this talk, we will discuss various federated systems considering clouds, edges and fogs, and related offloading scenarios in detail.
Abstract: Generating SQL codes from natural language questions (NL2SQL) is an emerging research area. Existing studies have mainly focused on clear scenarios where specified information is fully given to generate a SQL query. However, in developer forums such as Stack Overflow, questions cover more diverse tasks including table manipulation or performance issues, where a table is not specified. The SQL query posted in Stack Overflow, Pseudo-SQL (pSQL), does not usually contain table schemas and is not necessarily executable, is sufficient to guide developers. In this talk, I will first introduce the problem of generating SQL codes from natural language questions (NL2SQL), illustrated with existing approaches. Then, I will describe a new NL2pSQL task to generate pSQL codes from natural language questions on under-specified database issues, NL2pSQL. In addition, two new metrics suitable for the proposed NL2pSQL task were defined, Canonical-BLEU and SQL-BLEU, instead of the conventional BLEU. With a baseline model using sequence-to-sequence architecture integrated by denoising autoencoder, the validity of our task is confirmed. Experiments show that the proposed NL2pSQL approach yields well-formed queries (up to 43% more than a standard Seq2Seq model).
Abstract: The massive growth of cloud computing leads to huge amounts of energy consumption and release of carbon footprints as data centers are housed by a large number of servers. Consequently, the cloud service providers are looking for eco-friendly solutions to reduce energy consumption and carbon emissions. United States data centers consume approximately 91 billion kWh of electricity in 2013 and it is guesstimated to increase to 140 billion kWh by 2020 according to natural resource defense council report. As a result, task scheduling has drawn attention, in which efficient resource utilization and minimum energy consumption take into great consideration. This is an exigent issue, especially for the heterogeneous environment.In this tutorial, we will discuss energy-efficient task scheduling algorithms to address the demerits associated with task consolidation and scheduling problem.
Abstract: The latest trend in authenticating and identifying users is by using the potentiality of biometrics. Recently, keystroke dynamics on smart phones gaining popularity due to the sensors technology attached to a smart phone with all amenities are now available at low cost and it becoming more common and popular. It increases the performance in the accuracy and reliability of the model. As the increasing trends of using sensors technology create opportunities as well as challenges for developing the next version of keystroke dynamics systems. In this domain, ML is used in user recognition, user identity verification, and user personal traits prediction by measuring and analyzing the way of typing. In this discussion, a study on the keystroke dynamics biometrics has been exploited as a measure of user identification and authentication with the help of popular machine learning tools and techniques.
Abstract: The workshop is targeted at potential participants as a prelude to highly focused conference ICADCML-2020. This workshop endeavors to enables prospective participants to respond better to obsolescence in IT with DevOps as an appealing paradigm shift in Application Lifecycle Automation. DevOps is a set of practices that combines software development (Dev) and information-technology operations (Ops).DevOps architecture is used for the applications hosted on the cloud platforms and large distributed applications. This workshop followed by hands-on sessions will guide the participants through DevOps with Docker and Kubernetes. Docker is a high-end DevOps tool that allows building, ship, and run distributed applications on multiple systems, furthermore Kubernetes is a production-grade, open-source platform that orchestrates the placement (scheduling) and execution of application containers within and across computer clusters. It works with a range of container tools, including Docker. Many cloud services offer a Kubernetes-based platform or infrastructure as a service (PaaS or IaaS) on which Kubernetes can be deployed as a platform-providing service.