Emerald is a shade of green, a color that symbolizes balance and harmony. Green has strong associations with nature and the environment and is seen as the color of luck, freshness and renewal. In color psychology, green is thought to help balance emotions and promote a sense of calm and clarity.
30, ఏప్రిల్ 2025, బుధవారం
2020 business senario changed........profits less are continueing .............. read betwn lines.................. below parameters follwing colleges are forever....
India involves considering several key
parameters. Here are some important factors to evaluate:
1. Accreditation and Affiliation:
- Ensure the college is accredited by the National Board of Accreditation (NBA)
or affiliated with a recognized university.
2. Reputation and Ranking:
- Look at national rankings (like NIRF, QS, or Times Higher Education) and
reviews from alumni and current students to gauge the college's reputation.
3. Faculty Qualifications:
- Assess the qualifications, experience, and research output of the faculty
members. A strong faculty can significantly enhance the learning experience.
4. Infrastructure and Facilities:
- Check the availability of modern laboratories, libraries, classrooms, and
other facilities that support learning and research.
5. Placement Records:
- Investigate the college's placement statistics, including the companies that
recruit from the campus, average salary packages, and the percentage of
students placed.
6. Industry Connections:
- Consider the college's collaborations with industries, internships, and
exposure to real-world projects, which can enhance employability.
7. Specializations Offered:
- Ensure the college offers the specific engineering branch or specialization
you are interested in.
8. Research Opportunities:
- Look for colleges that encourage research and innovation, offering opportunities
for projects, publications, and participation in conferences.
9. Student Support Services:
- Evaluate the availability of counseling, mentorship, and extracurricular
activities that support overall student development.
10. Location:
o
Consider the college's
location in terms of proximity to tech hubs, cost of living, and whether it’s
in a metropolitan area with better job opportunities.
1. Peer Group:
o
The quality of the
student cohort can influence your learning experience. A competitive and
motivated peer group can enhance your education.
1. Alumni Network:
o
A strong alumni
network can provide valuable connections and guidance in your career.
29, ఏప్రిల్ 2025, మంగళవారం
AJAX: Rich Internet Applications
Rich Internet
Applications (RIAs) leverage AJAX (Asynchronous JavaScript and XML) to
create web applications that function similarly to traditional desktop
applications. RIAs provide a rich user interface and dynamic content
updates without full page reloads, which AJAX enables through its asynchronous
communication with the server.
Key Concepts:
·
RIAs:
Web-based
applications that offer a rich and interactive user experience, mimicking the
functionality of desktop applications.
·
AJAX:
A
web development technique that uses JavaScript and XMLHttpRequest to
communicate with a server in the background without reloading the entire page.
·
Asynchronous
Communication:
AJAX
allows the client (browser) to send requests to the server and receive
responses without blocking the user interface.
·
Dynamic
Updates:
AJAX
enables real-time updates to the user interface without refreshing the page,
making the application more responsive.
How AJAX Enables RIAs:
1.
1. Client-Side
Scripting:
JavaScript
is used to manage user interactions, handle data, and update the user
interface.
2. 2. Asynchronous Requests:
AJAX
uses the XMLHttpRequest object to send requests to the server in the
background.
3. 3. Server-Side Processing:
The
server processes the requests, retrieves or modifies data, and sends responses
back to the client.
4. 4. Data Exchange:
XML
or JSON is often used to structure the data exchanged between the client and
server.
5. 5. User Interface Updates:
JavaScript
updates specific parts of the user interface based on the received data,
without requiring a full page reload.
Examples of RIA
Frameworks that use AJAX:
·
Dojo: A powerful framework for building web
applications [1, 17].
·
Prototype: Another widely used framework for
creating dynamic web pages [1].
·
Script.aculo.us: A framework that extends Prototype's
functionality [1].
·
SmartClient: An open-source platform for building
RIAs [17].
·
ASP.NET
AJAX: Microsoft's
framework for building web applications with AJAX [1].
·
RIA and Ajax | PPT -
SlideShare
23 Feb 2009 — Ajax
allows for asynchronous retrieval of data from a server in the background
without reloading the page. It uses a co...
28, ఏప్రిల్ 2025, సోమవారం
Ubiquitous computing refers to the integration of computing technology into everyday objects and environments, making them more interactive and responsive. Examples include smart homes, wearable technology, and digital assistants. This means using technology in a way that is seamless and unobtrusive, like a thermostat learning your temperature preferences or a smartwatch displaying notifications.
Pervasive computing, also called ubiquitous computing, is the growing trend of embedding computational capability (generally in the form of microprocessors) into everyday objects to make them effectively communicate and perform useful tasks in a way that minimizes the end user's need to interact with computers as computers. Pervasive computing devices are network-connected and constantly available.
Unlike desktop computing, pervasive computing can occur with any device, at any time, in any place and in any data format across any network and can hand tasks from one computer to another as, for example, a user moves from his car to his office. Pervasive computing devices have evolved to include:
- laptops;
- notebooks;
- smartphones;
- tablets;
- wearable devices;
- and sensors (for example, on fleet management and pipeline components, lighting systems, appliances).
Often considered the successor to mobile computing, ubiquitous computing generally involves wireless communication and networking technologies, mobile devices, embedded systems, wearable computers, radio frequency ID (RFID) tags, middleware and software agents. Internet capabilities, voice recognition and artificial intelligence (AI) are often also included.
How ubiquitous computing is used
Pervasive computing applications have been designed for consumer use and to help people do their jobs.
An example of pervasive computing is an Apple Watch that alerts the user to a phone call and allows the call to be completed through the watch. Another example is when a registered user for Audible, Amazon's audio book server, starts his or her book using the Audible app on a smartphone on the train and continues listening to the book through Amazon Echo at home.
An environment in which devices, present everywhere, are capable of some form of computing can be considered a ubiquitous computing environment. Industries spending money on research and development (R&D) for ubiquitous computing include the following:
- energy
- entertainment
- healthcare
- logistics
- military
Importance
Because pervasive computing systems are capable of collecting, processing and communicating data, they can adapt to the data's context and activity. That means, in essence, a network that can understand its surroundings and improve the human experience and quality of life.
History
Ubiquitous computing was first pioneered at the Olivetti Research Laboratory in Cambridge, England, where the Active Badge, a "clip-on computer" the size of an employee ID card, was created, enabling the company to track the location of people in a building, as well as the objects to which they were attached.
Caption: This diagram of pervasive computing shows the role of sensors and other low-power embedded devices in pervasive computing.
Mark Weiser, largely considered the father of ubiquitous computing, and his colleagues at Xerox PARC soon thereafter began building early incarnations of ubiquitous computing devices in the form of "tabs," "pads" and "boards."
Weiser described the concept of ubiquitous computing thusly:
Inspired by the social scientists, philosophers and anthropologists at PARC, we have been trying to take a radical look at what computing and networking ought to be like. We believe that people live through their practices and tacit knowledge, so that the most powerful things are those that are effectively invisible in use. This is a challenge that affects all of computer science. Our preliminary approach: Activate the world. Provide hundreds of wireless computing devices per person per office of all scales (from 1" displays to wall-sized). This has required new work in operating systems, user interfaces, networks, wireless, displays and many other areas. We call our work 'ubiquitous computing.' This is different from PDAs [personal digital assistants], Dynabooks or information at your fingertips. It is invisible, everywhere computing that does not live on a personal device of any sort, but is in the woodwork everywhere.
He later wrote:
For 30 years, most interface design, and most computer design, has been headed down the path of the 'dramatic' machine. Its highest ideal is to make a computer so exciting, so wonderful, so interesting, that we never want to be without it. A less-traveled path I call the 'invisible': its highest ideal is to make a computer so imbedded, so fitting, so natural, that we use it without even thinking about it. (I have also called this notion 'ubiquitous computing,' and have placed its origins in postmodernism.) I believe that, in the next 20 years, the second path will come to dominate. But this will not be easy; very little of our current system's infrastructure will survive. We have been building versions of the infrastructure-to-come at PARC for the past four years in the form of inch-, foot- and yard-sized computers we call tabs, pads and boards. Our prototypes have sometimes succeeded, but more often failed to be invisible. From what we have learned, we are now exploring some new directions for ubicomp, including the famous 'dangling string' display.
The term pervasive computing followed in the late 1990s, largely popularized by the creation of IBM's pervasive computing division. Though synonymous today, Professor Friedemann Mattern of the Swiss Federal Institute of Technology in Zurich noted in a 2004 paper that:
Weiser saw the term 'ubiquitous computing' in a more academic and idealistic sense as an unobtrusive, human-centric technology vision that will not be realized for many years, yet [the] industry has coined the term 'pervasive computing' with a slightly different slant. Though this also relates to pervasive and omnipresent information processing, its primary goal is to use this information processing in the near future in the fields of electronic commerce and web-based business processes. In this pragmatic variation -- where wireless communication plays an important role alongside various mobile devices such as smartphones and PDAs -- ubiquitous computing is already gaining a foothold in practice.
Pervasive computing and the internet of things
The internet of things (IoT) has largely evolved out of pervasive computing. Though some argue there is little or no difference, IoT is likely more in line with pervasive computing rather than Weiser's original view of ubiquitous computing.
Like pervasive computing, IoT-connected devices communicate and provide notifications about usage. The vision of pervasive computing is computing power widely dispersed throughout daily life in everyday objects. IoT is on its way to providing this vision and turning common objects into connected devices, yet, as of now, requires a great deal of configuration and human-computer interaction -- something Weiser's ubiquitous computing does not.
IoT can employ wireless sensor networks. These sensor networks collect data from devices' individual sensors before relaying them to IoT's server. In one application of the technology, such as when collecting data on how much water is leaking from a city's water mains, it may be useful to collect data from the wireless sensor network first. In other cases, for example, wearable computing devices, such as an Apple Watch, the collection and processing of data is better sent directly to a server on the internet in which the computing technology is centralized.
Advantages of pervasive computing
As described above, pervasive computing requires less human interaction than a ubiquitous computing environment where there may be more connected devices, but that the extraction and processing of data requires more intervention.
Because pervasive computing systems are capable of collecting, processing and communicating data, they can adapt to the data's context and activity. That means, in essence, that a network that can understand its surroundings and improve the human experience and quality of life.
Examples
Examples of pervasive computing include electronic toll systems on highways; tracking applications, such as Life360, which can track the location of the user, the speed at which they are driving and how much battery life their smartphone has; Apple Watch; Amazon Echo; smart traffic lights; and Fitbit.
A TOGA PARTY IS A COSTUME PARTY CENTERED AROUND THE THEMES OF ANCIENT GREECE AND ROME, CHARACTERIZED BY ATTENDEES WEARING GARMENTS INSPIRED BY ANCIENT ROMAN CLOTHING. THE PARTY OFTEN FEATURES DECORATIONS, GAMES from stallings.W...........NSC........Plain: Meet Me After The Toga Party Cipher: PHHW PH Diwhu WKH WRJD Sduwb The document discusses the Caesar cipher, which is one of the earliest and simplest substitution ciphers. It involves shifting each letter of the alphabet by a fixed number of positions, wra…
"Meet me after the toga party" can be interpreted in a few ways, depending on the context. If you're inviting someone to a party, it means you want to meet them after the toga party event has concluded. Alternatively, if you're using it in a broader sense, it could simply mean a meeting to be arranged after the party, possibly for a different purpose.
27, ఏప్రిల్ 2025, ఆదివారం
A water, light, and sound show, also known as a musical fountain or water theater, is a display that combines water, lighting, and sound effects to create a visual and auditory spectacle. These shows often synchronize the water jets to the rhythm of music, creating dynamic and visually engaging displays.
Mr. ram.............
www.linkedin.com/in/ramanjaneyulu-dayinaboyina-47442847 my linkein url
https://www.facebook.com/profile.php?id=61571347496791 my facebook url
26, ఏప్రిల్ 2025, శనివారం
What Is Ubiquitous Computing? Pervasive computing, or ubiquitous computing, integrates connectivity functionalities into all of the objects in our environment so they can interact with one another, automate routine tasks, and require minimal human effort to complete tasks and follow machine instructions
20, ఏప్రిల్ 2025, ఆదివారం
is often used as a symbol of a peaceful, idyllic, and often simpler life, contrasting with the hustle and bustle of urban settings. It can also represent a sense of home, roots, and connection to a particular place and way of life. The lyrics might describe the natural beauty of the are.........
పట్టణ పరిస్థితుల సందడికి భిన్నంగా, ప్రశాంతమైన, అందమైన మరియు తరచుగా సరళమైన జీవితానికి చిహ్నంగా తరచుగా ఉపయోగించబడుతుంది. ఇది ఇల్లు, మూలాలు మరియు ఒక నిర్దిష్ట ప్రదేశం మరియు జీవన విధానానికి సంబంధించిన భావనను కూడా సూచిస్తుంది. సాహిత్యం ఈ దీవుల సహజ సౌందర్యాన్ని వర్ణించవచ్చు.
ఓ మై డియర్ ఓ ఓ మై డియర్ ఓ
మ్మ్ నర నరాల్లోనా చలి జ్వరం చూడు తెగ కరుస్తున్నదే ఎం చెయ్యాన్నే హె కలవరంలోనా చెలి వరంకోరు నస తెలుస్తున్నది మందియనా హె కనుక్కోవా కుశలం కాస్తయైనా అతుక్కొని సమయం చూస్తున్నా నచ్చావే నాటి నాంచారు ఓ మై డియర్ శ్రీవారు దొరగారు మేరీ శ్రీమతి గారు
19, ఏప్రిల్ 2025, శనివారం
16, ఏప్రిల్ 2025, బుధవారం
indian exports .............the important................India is a major player in global software and IT services exports, holding approximately 11% of the global market for computer services, making it the second-largest exporter globally. In 2023, India's software exports reached a record high of US$320 billion. Specifically, in "Telecommunications, Computer, & Information Services," India accounts for 10.2% of the global exports market. This strong position is attributed to its expertise in IT outsourcing, software development, and digital services. Here's a more detailed breakdown: Global Share: India's share in global services exports has more than doubled, reaching around 4.3% in 2023, up from 1.9% in 2005. IT Services Dominance: IT services are a significant contributor to India's overall IT exports, accounting for over 53%. Major Export Destinations: The USA, Europe, and the UK are the top destinations for Indian software services, accounting for a significant portion of total IT exports. BPO and BPM: Business process outsourcing (BPO) and business process management (BPM) are also key areas of Indian IT exports, with BPO accounting for a large percentage of IT-enabled services exports. Growth Drivers: India's software and IT services exports have been driven by factors like automation, robotic process automation (RPA), and the increasing adoption of cloud computing. Future Outlook: India's IT exports are projected to continue growing, with some forecasts predicting they could reach US$210 billion in FY25, capturing 18% of global IT outsourcing spending. india's share in global services exports doubles from 1.9 per ... 31 Jan 2025 — Services exports from India have shown a multi-sectoral presence in global exports, with notable contributions across s... Press Release:Press Information Bureau India's software exports reach US$ 320 billion in FY23 - IndBiz 18 Apr 2023 — This has increased the country's share in global computer services exports to about 11% India's software exports reache... Economic Diplomacy Division Indian Information Technology Sector and Its Growth - IBEF The export of IT services has been the major contributor, accounting for more than 53% of total IT exports (including hardware). . IBEF Show all
India's major exports include petroleum products, gems and jewelry, pharmaceuticals, textiles, and agricultural products like rice, tea, and spices. Other significant exports include electronic goods, engineering goods, organic and inorganic chemicals, iron and steel, and automobiles.
Elaboration:
- Refined petroleum products are a major export, with India being a significant player in the global market.
- India is a leading exporter of gems and jewelry, contributing significantly to the country's foreign exchange earnings.
- India is known for its pharmaceutical exports, particularly to the United States, and is often called the "pharmacy of the world".
- India exports a variety of textiles, including cotton textiles, handloom products, and readymade garments.
- Rice (both basmati and non-basmati), tea, spices, and other agricultural products are also major exports from India.
- The electronics industry has seen significant growth in India, with exports of mobile phones and other electronic devices increasing.
- India exports a wide range of engineering goods, including machinery, equipment, and auto parts.
- These chemicals are a significant export commodity for India, with a strong presence in the global market.
- India is a major producer and exporter of iron and steel products, with exports reaching major markets in the United States and the Middle East.
- The automobile industry has been growing rapidly in India, with exports of various types of vehicles and auto parts increasing.
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