a capstone research paper

User Generated

fnvpunenacnehcngv

Computer Science

Description

need to have a research paper under internet of things topic which should include explaining about using a weather detection device, the device is made up with arduino and raspberry pi, but these must be as a subtopic in it. what ever you write about the device and process it must be limited to internet of things. the paper uploaded is just a format for my requirement , in the paper if you see it was based on internet of things with raspberry pi camera. same exactly as that my paper need to be internet of things with weather detection. the device description i used can be found from the link below.

http://www.switchdoc.com/ourweather/

Unformatted Attachment Preview

Internet of Things (IOT) the next step towards future Eeshwar Soma MSE Capstone, Oklahoma Christian University, SU 2017 I. ABSTRACT Internet of things connects different products, machines and electronic controlled gadgets to the web. Many products can be interconnected using a web based interface which provides a better environment for users. The user’s interactions with devices under IOT is driven by the inter connections between all IOT devices; the user can operate all IOT devices with a single instruction. This provide simpler user interface for the users when they are operating complex devices. IOT has many applications and its growing field of innovation and opportunities. This paper discusses the implementation of IOT in all areas of internet usage and how flexible can it be, with detailed studied of IOT structure and working. II. KEYWORDS Internet of things, connections, SOS, health care, technology management III. INTRODUCTION Internet of things is growing technology and its applications are also growing in wide range of applications all the way from healthcare to education. All the applications have strong impact and importance where ever IOT is used. [1] Figure: Applications of IOT Source: TEM Journal. Volume 6, Issue 1, Pages 80-84, ISSN 2217-8309, DOI: 10.18421/TEM61-11, February 2017 The Internet of Things (IoT) has changed our lives previously being actualized in the field of inventory network administration. IoT is promoting a more "associated life", through wearable wellness gadgets, associated family unit apparatuses, and PDAs and watches. IoT associates ordinary things, similar to heart checking sports shirts, rest screens, and shrewd coolers to organized gadgets, for example, PCs and cell phones, with the goal that these gadgets can "talk" to each other and clients can deal with their lives through PCs or advanced cells. For example, IoT associates advanced cells with lights, carport entryways, and even toilets. Savvy textures utilize the implicit sensors to screen human well-being and speak with social insurance suppliers progressively (Burkett and Steutermann, 2014). Brilliant autos are another case, in that they give excitement, security, and self-driving capacities utilizing IoT advances, for example, huge information and machine learning. Autos can gather information from voyagers, continuous activity, and Wi-Fi hotspots, and even tell clients when a motor may go to separate and should be kept up or supplanted (Lever, 2015). In the age of the IoT, physical resources are furnished with sensors and connected to a data sharing framework to encourage correspondence and coordinated effort through information examination and basic leadership apparatuses.[1] This decade has seen the fast development of mechanical elevates in many fields of research. Web of Things (IoT) is the latest one that has just begun to confer enormous effect on each part of lives i.e., condition, industry, sports, excitement, social figuring, agribusiness, nourishment handling, barrier, training, astronomy, city lives and so forth. E-social insurance benefit is the significant range after that human lives depend on the most. Analysts are continually drawn in with the innovation escalated approaches towards the advancement of novel applications on e-medicinal services and restorative science. Web of Things (IoT) has the key impact in this segment. Web of Things (IoT) might be viewed as made out of four essential divisions, for example, Interaction, Things, Process and Data in short (ITPD). These divisions were clarified by Ray, in 2014, where the connection implies the relation of client and framework, considering the examples- the organize advancements 2G, 3G, 4G, WiFi (Wireless Fidelity), Near-field correspondence (NFC), Bluetooth Low Energy-BTLE and so on); Things (such as wearable gadgets) which interacts with different items that accumulate Data like crude sensor information, equipment, and cloud prepared information) from surroundings by intercession of sensors, while the process such as operations performed by cloud and equipment stages, is the center of these parameters is to oversee and relate with client and Internet of Things (IOT) empowered advances.[2] understood the significance of SCI, additionally inquire about into the "know-how" of SCI as yet absent.[17] V. RASPBERRY PI WITH CAMERA AN DEVICE BUILD ON IOT IV. APPLICATIONS OF IOT As indicated by a current report, the reception of Internet of Things (IoT) may acquire uncommon changes the operational productivity to doctor's facilities and surgical focuses in overseeing everyday clinical operations, and track the e-health care status of hospitalized patients. The researchers are at present attempting to frame such arrangements around Internet of Things (IoT) that can have better control over the operational procedure and get power to lessen an opportunity to give better care to humanity.[4] Cost effectiveness, dependability, and well-being are the coveted objectives accomplished with Internet of Things (IoT) applications in the e-social insurance division. It is worth to be noticed that, the worldwide Internet of Things (IoT) e-human services advertise is evaluated to develop from $32.4 Billion of every 2015 to $163.2 Billion by 2020, at a Compound Annual Growth Rate (CAGR) of 38.1% amid this gauge period. In this specific circumstance, it is evident to appreciate that investigation of the pertinence of Internet of Things (IoT) on e-medicinal services segment is to be sure a need of present time. An exhaustive comprehension of the flow status of Internet of Things (IoT) empowered innovations in connection with different wearable's that are as of now being utilized as a part of e-human services, is relied upon to be most helpful for different partners who are keen on additionally explore. Especially, the part of associated wearable's and their honesty with Internet of Things (IoT) enabled innovations is unquestionably an essential matter of study.[5] By connecting machines, items, individuals, and production network individuals, the IoT gives another condition to inventory network supervisors. It empowers process combination and data correspondence, permits the machine empowered basic leadership, and encourages more proficient and compelling inventory network administration. In this totally new business and innovation condition, inventory network directors need to develop their customary SCM practices and systems. Inventory network advancement (SCI) is the outlook and routine with regards to inventively investigating and utilizing the open doors existing in SCM for making upper hands. Numerous scientists and specialists consider SCI to be the following phase of advancement and energy to create and enhance the current SCM worldview. Advancement is seen as the result of a production network arranges, as opposed to of a firm since development originates from communication and a joint effort with different associations and store network individuals.[6] Perceiving the imperative estimation of SCI, the American Council of Supply Chain Management Professionals gives the Supply Chain Innovation Award to the business champs every year, for example, Cisco, Hewlett-Packard, and Intel. Albeit both industry and the scholarly community have completely Raspberry Pi with camera is solutions for the high cost security camera, which has enhanced motion detective features which helps the camera to capture when any change occur happen in the surroundings. The system will be in the size of the credit card and will be capable of live streaming with implementation of IOT path in the system. the total software part of the system is built on python. • The Raspberry Pi is a low-cost, small and portable with a size of the computer board. It can be used to plug-in to computer monitor or television, keyboard, mouse, pen drive etc. Raspberry Pi has built-in software such as Scratch which enables users to program and design animation, game or interesting video. • Today everything is reliable on calculation and data analysis and here Raspberry Pi turns out to be an effective stage for executing the home automation. • This is not only used for Home Automation and also in many places like banks, hospitals and other sophisticated automation systems. Figure: Raspberry Pi with camera Source: http://www.asee.org/documents/zones/zone1/2014/Studen t/PDFs/218.pdf VI. FUTURE SCOPE 15 existing Internet of Things (IoT) cloud stages has been examined in view of continuous get to, information representation, information catch, information examination, cloud benefit sort, and cost. In this unique circumstance, a cloud can be seen as an administration that conveys the on request processing assets from utilities to server farms on a compensation as you go premise or free. Basically IOT cloud stages are intended to give various answers for designers to assemble and convey intense Internet of Things (IoT) applications (e.g., therapeutic, healing center, and crisis administrations), devices for gadget makers to rapidly consolidate recently associated administrations to the items and perform activities between machines (gadgets/things) and interpersonal organizations, and considerably more. 31 diverse wearable's e-wellbeing arrangements have been found in this work to learn about the ease of use of sensors, pertinence among a few sorts of the populace, and identifying parameter (e.g., infant screen, ladies e-wellbeing, elderly, cardiovascular, wellness and so forth.).[14] Many types of research are taking place for figuring out which hardware is most suitable for the medical applications. Innovations can be made implementations of network technologies base for IOT in healthcare applications. Implementations of PLM (product lifecycle management) in SCM are one of the scopes IOT for improving the supply chain adaptability in any industry. VII. IMPACT ON THE GLOBAL COMMUNITY The IOT has a wide range of applications and its range of research base and the ability to make things and process simply is making the technological world more advanced and ahead in making things done and entering into new fields of research. The IOT has better applications in the manufacturing sector in the world where automation is growing at much faster rate. When IOT is used in automation areas it makes the size and use of control devices out of equations. The feedback systems will in connections with the process performing machines and makes things efficient and at the same time simple. In the same way, IOT has applications in all fields and help to make things simple and cost effective. VIII. RESEARCH CONCLUSIONS The growth and implementation of IOT into all areas of living more advanced and straightforward simple. The IOT simply makes complex things in a simpler way by making devices to interact between themselves and getting things done without interaction of the user. The IOT have greater use and importance in this world at present. IOT next applications will be in space research and aero industries where things are much complex. This results in making human life more advance for next generations. IX. REFERENCES [1] K. Kim, C. A. Ellis, “Section II / Chapter VII. An ICNbased Workflow Model and Its Advances,” Handbook of Research on BP Modeling, IGI Global, ISR, pp. 142-172, 2009. [2] N. Clarles Russell BSc MinfTech, “Foundations of Process-aware Information Systems,” Ph.D. Dissertation, Queensland University of Technology, 2007. [3] “ITU Internet Reports 2005: The Internet of Things,” Executive Summary, International Telecommunication Union, 2005. [4] M. Skerlavaj, V. Dimovski, K. C. Desouza, “Patterns and Structures of Intra-organizational Learning Networks within a Knowledge-intensive Organization,” Journal of Information Technology, Vol. 25, No. 2, pp. 189-204, 2010. [5] M. In, et al., “Web of Things (WoT) Standardization Status,” TTA Journal, Vol. 138, pp. 79-84, 2011. [6] S. You, et al., “Smart Mobile Services: M2M Technology and Its Standardization Status,” Telecommunications Trends Analysis, Vol. 26, No. 2, pp. 5060, 2011. [7] C. A. Ellis, et al., “Investigations on Stochastic Information Control Nets,” Information Sciences, Vol. 194, pp. 120-137, 2012. [8] W. Cho, et al., “u-SERVICE DESIGN: Ubiquitous Computing Experts Series,” Jinhan M&B Publishing Co., 2009. [9] K. Kim, “A Model-driven Workflow Fragmentation Framework for Collaborative Workflow Architectures and Systems,” Journal of Network and Computer Applications, Vol. 35, Issue 1, pp. 97-110, 2012. [10] K. Kim, “A Layered Workflow Knowledge Grid/P2P Architecture and its Models for Future Generation Workflow Systems,” Future Generation Computer Systems, Vol. 23, No. 3, pp. 304-316, 2007. [11] H. Ahn, et al., “A Process-driven IoT-Community Computing Model,” ICIC Express Letters, Vol. 8, No. 2, pp. 483-488, 2014. [12] N. Clarles Russell B.Sc. MInfTech, “Foundations of Process-Aware Information Systems,” Ph.D. Dissertation, Queensland University of Technology, 2007. [13] H. Ahn, and K. Kim, “An Advanced IoT Conceptual Platform for Ubiquitous Community Computing Systems,” in Proc. of the 8th Asia Pacific International Conference on Information Science and Technology, pp. 275-278, 2013. [14] “Internet of Things in 2020: A Roadmap for the Future,” INFSO D.4 Networked Enterprise & RFID, INFSO G.2 Micro &Nanosystems in co-operation with the RFID Working Group of the European Technology Platform on Smart Systems Integration (EPOSS), 2008. [15] “RFID and the Inclusive Model for the Internet of Things,” Final Report, CASAGRAS: An European Union Framework 7 Project (EU Project Number 216803), 2010. KSII TRANSACTIONS ON INTERNET AND INFORMATION SYSTEMS VOL. 10, NO. 8, August 2016 4021 [16] B. Jamoussi, “IoT Prospects of Worldwide Development and Current Global Circumstances,” Presentation Slides in the 2010 China International IOT Exposition, 2010. [17] Luigi Atzori, Antonio Iera, and GiacomoMorabito, “The Internet of Things: A Survey,” Computer Networks, Vol. 54, No. 15, pp. 2787-2805, 2010. [18] Sonja Meyer, Andreas Ruppen, and CarstenMagerkurth, “Internet of Things-Aware Process Modeling: Integrating IoT Devices as Business Process Resources,” Advanced Information Systems Engineering, Springer Berlin Heidelberg, 2013. [19] Benedikt Schmidt, and Markus Schief, “Towards Agile Business Processes Based on the Internet of Things,” Advanced Manufacturing and Sustainable Logistics, Springer Berlin Heidelberg, pp. 257-262, 2010. [20] Miao Wu, et al., “Research on the Architecture of Internet of Things,” IEEE Proceedings of the [21] Zhuming Bi, Li Da Xu, and Chengen Wang, “Internet of Things for Enterprise Systems of Modern Manufacturing,” IEEE Transactions on Industrial Informatics, Vol. 10, No. 2, pp. 1537-1546, 2014. [22] Da Xu, Wu He Li, and Shancang Li, “Internet of Things in Industries: a Survey,” IEEE Transactions on Industrial Informatics, Vol. 10, No. 4, pp. 2233-2243, 2014. [23] Hsiao-Hsien Chiu, and Ming-Shi Wang, “A Study of IoTAware Business Process Modeling,” International Journal of Modeling and Optimization, Vol. 3, No. 3, pp. 238, 2013. [24] Martin Bauer, et al., “IoT Reference Model: Enabling Things to Talk,” Springer Berlin Heidelberg, pp. 113-162, 2013. [25] M. Kim, et al., “A Conceptual Extension of the Internet of Things Architecture and Its Standardization Reference Model,” in Proc. of the 7th International Conference on Internet (ICONI), pp. 169 ~ 172, Kuala Lumpur, Malaysia, 2015. [26] “Next Generation Networks – Frameworks and functional architecture models: Overview of the Internet of Things,” ITU-T Y.2060, Series Y: Global Information Infrastructure, Internet Protocol Aspects and Next-Generation Networks, 2016. [27]
Purchase answer to see full attachment
User generated content is uploaded by users for the purposes of learning and should be used following Studypool's honor code & terms of service.

Explanation & Answer

Hi, kindly find attached

Surname 1

Student’s name
Professor’s name
Course title
Date

Internet of Things Weather Detection
The internet if things (IOT) is a concept that defines the idea of connecting physical
objects to the internet and the objects being able to identify themselves to others. It, therefore,
entails machines, products and electronically controlled gadgets connecting to the web. Internet
of things is a kind of technology that has overgrown as well as its applications. Such application
has significant impacts and importance whenever the IOT is used. This kind of technology has
revolutionized the human life in different fields. It can be defined as having four essential
divisions namely: interactions, things, process and data (ITPD). IOT has been applied in different
areas whereby it is used to help people achieve efficiency in their undertakings. Some of the
primary objectives of the applications of IoT is to make cost-effectiveness, dependability, and
wellbeing. One of the areas where IOT can be applied is in detecting weather conditions. An
excellent example of a device that can efficiently accomplish is the Raspberry PI with a camera
which is built on the internet of things.

Surname 2
The applications of IoT is quite extensive. The main categories include in consumer,
enterprise and infrastructure applications. Researchers have indicated that internet of things is the
next stage of evolution in information and the inter-connectivity devices. This will have a broad
scope of household appliances, medical devices, transportation and weather detection. Such
systems are crucial in the collection of information in surrounding ranging from buildings,
factories, and natural ecosystems, therefore, facilitating either environmental sensing (which
involves weather detection) and urban planning.
One of the areas of application is consumer application. A considerable number of the
internet of things (IoT) devices are made explicitly for usage by the consumers. Classic examples
include home automation, connected car, wearable technology, connected health, and appliances
such as robotic vacuums, washers, ovens refrigerators or air purifiers that use Wi-Fi for remote
control and monitoring. The IOT devices have become an integral part of the home automation
(domotics). The automated home system uses a controller to offer the user with control over
server other devices. Examples of such devices include heating and air conditioning, media and
security and lighting systems. The benefit of using this technology in home settings is to ease of
usability which is an immediate benefit. Long-term benefits include the creation of
environmentally friendl...


Anonymous
I was stuck on this subject and a friend recommended Studypool. I'm so glad I checked it out!

Studypool
4.7
Trustpilot
4.5
Sitejabber
4.4

Related Tags