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Tue, 11 Apr 2023 15:15:46 GMT狠狠撸Share feed for 狠狠撸shows by User: BryCunalCyber Security
/slideshow/cybersecuritypptx-257310512/257310512
cybersecurity-230411151546-bb94a548 Cybersecurity refers to a set of techniques used to protect the integrity of networks, programs and data from attack, damage or unauthorized access.
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Cybersecurity refers to a set of techniques used to protect the integrity of networks, programs and data from attack, damage or unauthorized access.
]]>
Tue, 11 Apr 2023 15:15:46 GMT/slideshow/cybersecuritypptx-257310512/257310512BryCunal@slideshare.net(BryCunal)Cyber SecurityBryCunalCybersecurity refers to a set of techniques used to protect the integrity of networks, programs and data from attack, damage or unauthorized access.
<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/cybersecurity-230411151546-bb94a548-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> Cybersecurity refers to a set of techniques used to protect the integrity of networks, programs and data from attack, damage or unauthorized access.
]]>
73910https://cdn.slidesharecdn.com/ss_thumbnails/cybersecurity-230411151546-bb94a548-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted0Biometrics.pptx
/slideshow/biometricspptx/257297806
biometrics-230411021921-316965f8 Biometrics
HISTORY OF BIOMETRICS
Biometrics, from the ancient Greek BIOS and METRON, denotes the recognizing of humans on the basis of intrinsic physical or behavioral traits
While the initial instances of biometrics date back to the Babylonian empire, the first biometric identification system wasn鈥檛 developed until the 1800s. A Parisian, Alphonse Bertillon, created a method of classifying and comparing criminals based on their body measurements. While imperfect, Bertillon鈥檚 system was the catalyst of using physical characteristics as a means of authenticating identity.
1800鈥橲
The 1800s witnessed significant developments in biometrics, including the introduction and the fall of the Bertillon system, the implementation of Henry鈥檚 fingerprint Classification system, and the establishment of fingerprint databases.
1858
Sir William Herschel is credited for the first systematic capture of finger and hand images that were taken for identity verification purposes. Herschel was working in India's Civil Service, and he recorded employees鈥� handprints on the back of their worker contracts 鈥� by doing so, he could tell who the real employees were on payday.
1870
Bertillon developed anthropometries (or Bertillonage), which is a method used to identify people based on specific records of their body鈥檚 measurements, photographs of them, and their physical descriptions. Criminal offenders who are arrested multiple times would often provide different names to law enforcement authorities. Bertillon realized that, even though they may change their names, certain aspects of their appearance would remain the same. Police authorities used his system across the globe 鈥� however, Bertillonage quickly faded once it became clear that some criminals had the same body measurements.
1892
Sir Francis Galton authored an in-depth study of fingerprints 鈥� in it, he suggested a classification system that used prints from all 10 fingers. The minutiae 鈥� or characteristics 鈥� that Galton used to identify people are still in use today.
1896
Sir Edward Henry, who was the Bengal Police force鈥檚 General Inspector, collaborated with Sir Francis Galton to devise a method of classifying and storing fingerprint information so it could easily and efficiently be used.
1900S
Major breakthroughs in biometrics occurred in the 1900s, including the use of iris patterns and hand geometry for personal identification. The mid-to-late 1900s also saw the birth of the facial recognition movement.
2000S
So far, the 21st聽century has seen biometrics grow by leaps and bounds. Systems work quicker and more efficiently, social acceptance of facial recognition is increasing, and mobile biometric solutions have become common.
The first FRVT (Face Recognition Vendor Test) was held 鈥� it was the initial open, large-scale test of multiple commercial biometric systems.
The FBI and West Virginia University collaborated with professional associations to develop a Biometric Systems bachelor鈥檚 program. This was the ver]]>
Biometrics
HISTORY OF BIOMETRICS
Biometrics, from the ancient Greek BIOS and METRON, denotes the recognizing of humans on the basis of intrinsic physical or behavioral traits
While the initial instances of biometrics date back to the Babylonian empire, the first biometric identification system wasn鈥檛 developed until the 1800s. A Parisian, Alphonse Bertillon, created a method of classifying and comparing criminals based on their body measurements. While imperfect, Bertillon鈥檚 system was the catalyst of using physical characteristics as a means of authenticating identity.
1800鈥橲
The 1800s witnessed significant developments in biometrics, including the introduction and the fall of the Bertillon system, the implementation of Henry鈥檚 fingerprint Classification system, and the establishment of fingerprint databases.
1858
Sir William Herschel is credited for the first systematic capture of finger and hand images that were taken for identity verification purposes. Herschel was working in India's Civil Service, and he recorded employees鈥� handprints on the back of their worker contracts 鈥� by doing so, he could tell who the real employees were on payday.
1870
Bertillon developed anthropometries (or Bertillonage), which is a method used to identify people based on specific records of their body鈥檚 measurements, photographs of them, and their physical descriptions. Criminal offenders who are arrested multiple times would often provide different names to law enforcement authorities. Bertillon realized that, even though they may change their names, certain aspects of their appearance would remain the same. Police authorities used his system across the globe 鈥� however, Bertillonage quickly faded once it became clear that some criminals had the same body measurements.
1892
Sir Francis Galton authored an in-depth study of fingerprints 鈥� in it, he suggested a classification system that used prints from all 10 fingers. The minutiae 鈥� or characteristics 鈥� that Galton used to identify people are still in use today.
1896
Sir Edward Henry, who was the Bengal Police force鈥檚 General Inspector, collaborated with Sir Francis Galton to devise a method of classifying and storing fingerprint information so it could easily and efficiently be used.
1900S
Major breakthroughs in biometrics occurred in the 1900s, including the use of iris patterns and hand geometry for personal identification. The mid-to-late 1900s also saw the birth of the facial recognition movement.
2000S
So far, the 21st聽century has seen biometrics grow by leaps and bounds. Systems work quicker and more efficiently, social acceptance of facial recognition is increasing, and mobile biometric solutions have become common.
The first FRVT (Face Recognition Vendor Test) was held 鈥� it was the initial open, large-scale test of multiple commercial biometric systems.
The FBI and West Virginia University collaborated with professional associations to develop a Biometric Systems bachelor鈥檚 program. This was the ver]]>
Tue, 11 Apr 2023 02:19:21 GMT/slideshow/biometricspptx/257297806BryCunal@slideshare.net(BryCunal)Biometrics.pptxBryCunalBiometrics
HISTORY OF BIOMETRICS
Biometrics, from the ancient Greek BIOS and METRON, denotes the recognizing of humans on the basis of intrinsic physical or behavioral traits
While the initial instances of biometrics date back to the Babylonian empire, the first biometric identification system wasn鈥檛 developed until the 1800s. A Parisian, Alphonse Bertillon, created a method of classifying and comparing criminals based on their body measurements. While imperfect, Bertillon鈥檚 system was the catalyst of using physical characteristics as a means of authenticating identity.
1800鈥橲
The 1800s witnessed significant developments in biometrics, including the introduction and the fall of the Bertillon system, the implementation of Henry鈥檚 fingerprint Classification system, and the establishment of fingerprint databases.
锟�
1858
Sir William Herschel is credited for the first systematic capture of finger and hand images that were taken for identity verification purposes. Herschel was working in India's Civil Service, and he recorded employees鈥� handprints on the back of their worker contracts 鈥� by doing so, he could tell who the real employees were on payday.
1870
Bertillon developed anthropometries (or Bertillonage), which is a method used to identify people based on specific records of their body鈥檚 measurements, photographs of them, and their physical descriptions. Criminal offenders who are arrested multiple times would often provide different names to law enforcement authorities. Bertillon realized that, even though they may change their names, certain aspects of their appearance would remain the same. Police authorities used his system across the globe 鈥� however, Bertillonage quickly faded once it became clear that some criminals had the same body measurements.
1892
Sir Francis Galton authored an in-depth study of fingerprints 鈥� in it, he suggested a classification system that used prints from all 10 fingers. The minutiae 鈥� or characteristics 鈥� that Galton used to identify people are still in use today.
1896
Sir Edward Henry, who was the Bengal Police force鈥檚 General Inspector, collaborated with Sir Francis Galton to devise a method of classifying and storing fingerprint information so it could easily and efficiently be used.锟�
1900S
Major breakthroughs in biometrics occurred in the 1900s, including the use of iris patterns and hand geometry for personal identification. The mid-to-late 1900s also saw the birth of the facial recognition movement.
2000S
So far, the 21st聽century has seen biometrics grow by leaps and bounds. Systems work quicker and more efficiently, social acceptance of facial recognition is increasing, and mobile biometric solutions have become common.
The first FRVT (Face Recognition Vendor Test) was held 鈥� it was the initial open, large-scale test of multiple commercial biometric systems.
The FBI and West Virginia University collaborated with professional associations to develop a Biometric Systems bachelor鈥檚 program. This was the ver<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/biometrics-230411021921-316965f8-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> Biometrics
HISTORY OF BIOMETRICS
Biometrics, from the ancient Greek BIOS and METRON, denotes the recognizing of humans on the basis of intrinsic physical or behavioral traits
While the initial instances of biometrics date back to the Babylonian empire, the first biometric identification system wasn鈥檛 developed until the 1800s. A Parisian, Alphonse Bertillon, created a method of classifying and comparing criminals based on their body measurements. While imperfect, Bertillon鈥檚 system was the catalyst of using physical characteristics as a means of authenticating identity.
1800鈥橲
The 1800s witnessed significant developments in biometrics, including the introduction and the fall of the Bertillon system, the implementation of Henry鈥檚 fingerprint Classification system, and the establishment of fingerprint databases.
锟�
1858
Sir William Herschel is credited for the first systematic capture of finger and hand images that were taken for identity verification purposes. Herschel was working in India's Civil Service, and he recorded employees鈥� handprints on the back of their worker contracts 鈥� by doing so, he could tell who the real employees were on payday.
1870
Bertillon developed anthropometries (or Bertillonage), which is a method used to identify people based on specific records of their body鈥檚 measurements, photographs of them, and their physical descriptions. Criminal offenders who are arrested multiple times would often provide different names to law enforcement authorities. Bertillon realized that, even though they may change their names, certain aspects of their appearance would remain the same. Police authorities used his system across the globe 鈥� however, Bertillonage quickly faded once it became clear that some criminals had the same body measurements.
1892
Sir Francis Galton authored an in-depth study of fingerprints 鈥� in it, he suggested a classification system that used prints from all 10 fingers. The minutiae 鈥� or characteristics 鈥� that Galton used to identify people are still in use today.
1896
Sir Edward Henry, who was the Bengal Police force鈥檚 General Inspector, collaborated with Sir Francis Galton to devise a method of classifying and storing fingerprint information so it could easily and efficiently be used.锟�
1900S
Major breakthroughs in biometrics occurred in the 1900s, including the use of iris patterns and hand geometry for personal identification. The mid-to-late 1900s also saw the birth of the facial recognition movement.
2000S
So far, the 21st聽century has seen biometrics grow by leaps and bounds. Systems work quicker and more efficiently, social acceptance of facial recognition is increasing, and mobile biometric solutions have become common.
The first FRVT (Face Recognition Vendor Test) was held 鈥� it was the initial open, large-scale test of multiple commercial biometric systems.
The FBI and West Virginia University collaborated with professional associations to develop a Biometric Systems bachelor鈥檚 program. This was the ver
]]>
5080https://cdn.slidesharecdn.com/ss_thumbnails/biometrics-230411021921-316965f8-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted0Mobile Technologies.pptx
/slideshow/mobile-technologiespptx/257297652
mobiletechnologies-230411021038-d1f64382 Mobile Technologies
HISTORY OF聽MOBILE聽TECHNOLOGIES
The Motorola DynaTAC 8000x was the first portable phone, although it was large, heavy and very expensive costing thousands of pounds.
Motorola was the first聽brand to emerge as a聽leader in early mobile聽phone technology,聽Nokia started creating聽popular phones in the聽early 90s.
Nokia continued to lead the industry over the next few years with the production of iconic models including the 5110, 3210, and the 3310. Nokia鈥檚 dominance began to recede in the early 2000s, with Sony Ericsson, LG, and Samsung increasingly becoming major players in the market.
2006 -Phones started to聽become truly smart. As GPS-enabled devices they could聽now check your emails, play聽music, surf the internet,聽download content and take聽photos.
2007-聽Phones started to be capable of functions close to those of today with the release of the first iPhone. Blackberry with their full keyboard design useful for emails and instant messaging also enjoyed popularity.
Phones are also able to act as聽contactless payment devices storing聽bank card details so an individual can be聽cashless and cardless. More web pages聽are now visited on mobile devices than聽via desktops. Screen sizes have聽increased, as have security features聽such as biometric unlocking from聽fingerprints of facial recognition聽technology. As far as the future goes聽there are shaped and curved screens,聽higher-quality cameras, improved聽battery life and ever more powerful聽processors.
Latest聽trends聽OF聽MOBILE聽 聽
聽聽TECHNOLOGIEs
5G Technology: 5G technology is the latest wireless technology that promises faster data transfer speeds, lower latency, and increased capacity. With 5G, mobile devices will be able to handle more data and perform more complex tasks.聽
Augmented Reality (AR) and Virtual聽Reality (VR): AR and VR聽technologies are becoming more聽accessible to consumers, and聽developers are finding new and聽innovative ways to use them. AR聽and VR technologies offer users a聽more immersive experience and are聽being used in industries like聽education, gaming, and retail.聽
Internet of Things (IoT): The IoT is a network of connected devices that can communicate with each other and the internet. The IoT is being used in industries like healthcare, manufacturing, and smart homes to improve efficiency and productivity.聽
Mobile Payments: Mobile聽payment technologies like聽Apple Pay, Google Wallet, and聽Samsung Pay are becoming聽more popular as consumers聽seek more convenient and聽secure payment options.
Artificial Intelligence (AI): AI聽technologies are being聽integrated into mobile devices to聽provide personalized聽experiences and improve the聽functionality of apps. AI is being聽used in industries like聽healthcare, finance, and retail.聽
News related articles
Advantages of mobile technologies
The benefits of using mobile technology in business can lead to:
Better communication.
Increased collaboration with your team.聽
Remote work.
聽Reduced operational costs and saved time.聽
Increased productivity.聽
Real t]]>
Mobile Technologies
HISTORY OF聽MOBILE聽TECHNOLOGIES
The Motorola DynaTAC 8000x was the first portable phone, although it was large, heavy and very expensive costing thousands of pounds.
Motorola was the first聽brand to emerge as a聽leader in early mobile聽phone technology,聽Nokia started creating聽popular phones in the聽early 90s.
Nokia continued to lead the industry over the next few years with the production of iconic models including the 5110, 3210, and the 3310. Nokia鈥檚 dominance began to recede in the early 2000s, with Sony Ericsson, LG, and Samsung increasingly becoming major players in the market.
2006 -Phones started to聽become truly smart. As GPS-enabled devices they could聽now check your emails, play聽music, surf the internet,聽download content and take聽photos.
2007-聽Phones started to be capable of functions close to those of today with the release of the first iPhone. Blackberry with their full keyboard design useful for emails and instant messaging also enjoyed popularity.
Phones are also able to act as聽contactless payment devices storing聽bank card details so an individual can be聽cashless and cardless. More web pages聽are now visited on mobile devices than聽via desktops. Screen sizes have聽increased, as have security features聽such as biometric unlocking from聽fingerprints of facial recognition聽technology. As far as the future goes聽there are shaped and curved screens,聽higher-quality cameras, improved聽battery life and ever more powerful聽processors.
Latest聽trends聽OF聽MOBILE聽 聽
聽聽TECHNOLOGIEs
5G Technology: 5G technology is the latest wireless technology that promises faster data transfer speeds, lower latency, and increased capacity. With 5G, mobile devices will be able to handle more data and perform more complex tasks.聽
Augmented Reality (AR) and Virtual聽Reality (VR): AR and VR聽technologies are becoming more聽accessible to consumers, and聽developers are finding new and聽innovative ways to use them. AR聽and VR technologies offer users a聽more immersive experience and are聽being used in industries like聽education, gaming, and retail.聽
Internet of Things (IoT): The IoT is a network of connected devices that can communicate with each other and the internet. The IoT is being used in industries like healthcare, manufacturing, and smart homes to improve efficiency and productivity.聽
Mobile Payments: Mobile聽payment technologies like聽Apple Pay, Google Wallet, and聽Samsung Pay are becoming聽more popular as consumers聽seek more convenient and聽secure payment options.
Artificial Intelligence (AI): AI聽technologies are being聽integrated into mobile devices to聽provide personalized聽experiences and improve the聽functionality of apps. AI is being聽used in industries like聽healthcare, finance, and retail.聽
News related articles
Advantages of mobile technologies
The benefits of using mobile technology in business can lead to:
Better communication.
Increased collaboration with your team.聽
Remote work.
聽Reduced operational costs and saved time.聽
Increased productivity.聽
Real t]]>
Tue, 11 Apr 2023 02:10:38 GMT/slideshow/mobile-technologiespptx/257297652BryCunal@slideshare.net(BryCunal)Mobile Technologies.pptxBryCunalMobile Technologies
HISTORY OF聽MOBILE聽TECHNOLOGIES
The Motorola DynaTAC 8000x was the first portable phone, although it was large, heavy and very expensive costing thousands of pounds.
Motorola was the first聽brand to emerge as a聽leader in early mobile聽phone technology,聽Nokia started creating聽popular phones in the聽early 90s.
Nokia continued to lead the industry over the next few years with the production of iconic models including the 5110, 3210, and the 3310. Nokia鈥檚 dominance began to recede in the early 2000s, with Sony Ericsson, LG, and Samsung increasingly becoming major players in the market.
2006 -Phones started to聽become truly smart. As GPS-enabled devices they could聽now check your emails, play聽music, surf the internet,聽download content and take聽photos.
2007-聽Phones started to be capable of functions close to those of today with the release of the first iPhone. Blackberry with their full keyboard design useful for emails and instant messaging also enjoyed popularity.
Phones are also able to act as聽contactless payment devices storing聽bank card details so an individual can be聽cashless and cardless. More web pages聽are now visited on mobile devices than聽via desktops. Screen sizes have聽increased, as have security features聽such as biometric unlocking from聽fingerprints of facial recognition聽technology. As far as the future goes聽there are shaped and curved screens,聽higher-quality cameras, improved聽battery life and ever more powerful聽processors.
Latest聽trends聽OF聽MOBILE聽 聽
聽聽TECHNOLOGIEs
5G Technology: 5G technology is the latest wireless technology that promises faster data transfer speeds, lower latency, and increased capacity. With 5G, mobile devices will be able to handle more data and perform more complex tasks.聽
Augmented Reality (AR) and Virtual聽Reality (VR): AR and VR聽technologies are becoming more聽accessible to consumers, and聽developers are finding new and聽innovative ways to use them. AR聽and VR technologies offer users a聽more immersive experience and are聽being used in industries like聽education, gaming, and retail.聽
Internet of Things (IoT): The IoT is a network of connected devices that can communicate with each other and the internet. The IoT is being used in industries like healthcare, manufacturing, and smart homes to improve efficiency and productivity.聽
Mobile Payments: Mobile聽payment technologies like聽Apple Pay, Google Wallet, and聽Samsung Pay are becoming聽more popular as consumers聽seek more convenient and聽secure payment options.
Artificial Intelligence (AI): AI聽technologies are being聽integrated into mobile devices to聽provide personalized聽experiences and improve the聽functionality of apps. AI is being聽used in industries like聽healthcare, finance, and retail.聽
News related articles
Advantages of mobile technologies
The benefits of using mobile technology in business can lead to:
Better communication.
Increased collaboration with your team.聽
Remote work.
聽Reduced operational costs and saved time.聽
Increased productivity.聽
Real t<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/mobiletechnologies-230411021038-d1f64382-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> Mobile Technologies
HISTORY OF聽MOBILE聽TECHNOLOGIES
The Motorola DynaTAC 8000x was the first portable phone, although it was large, heavy and very expensive costing thousands of pounds.
Motorola was the first聽brand to emerge as a聽leader in early mobile聽phone technology,聽Nokia started creating聽popular phones in the聽early 90s.
Nokia continued to lead the industry over the next few years with the production of iconic models including the 5110, 3210, and the 3310. Nokia鈥檚 dominance began to recede in the early 2000s, with Sony Ericsson, LG, and Samsung increasingly becoming major players in the market.
2006 -Phones started to聽become truly smart. As GPS-enabled devices they could聽now check your emails, play聽music, surf the internet,聽download content and take聽photos.
2007-聽Phones started to be capable of functions close to those of today with the release of the first iPhone. Blackberry with their full keyboard design useful for emails and instant messaging also enjoyed popularity.
Phones are also able to act as聽contactless payment devices storing聽bank card details so an individual can be聽cashless and cardless. More web pages聽are now visited on mobile devices than聽via desktops. Screen sizes have聽increased, as have security features聽such as biometric unlocking from聽fingerprints of facial recognition聽technology. As far as the future goes聽there are shaped and curved screens,聽higher-quality cameras, improved聽battery life and ever more powerful聽processors.
Latest聽trends聽OF聽MOBILE聽 聽
聽聽TECHNOLOGIEs
5G Technology: 5G technology is the latest wireless technology that promises faster data transfer speeds, lower latency, and increased capacity. With 5G, mobile devices will be able to handle more data and perform more complex tasks.聽
Augmented Reality (AR) and Virtual聽Reality (VR): AR and VR聽technologies are becoming more聽accessible to consumers, and聽developers are finding new and聽innovative ways to use them. AR聽and VR technologies offer users a聽more immersive experience and are聽being used in industries like聽education, gaming, and retail.聽
Internet of Things (IoT): The IoT is a network of connected devices that can communicate with each other and the internet. The IoT is being used in industries like healthcare, manufacturing, and smart homes to improve efficiency and productivity.聽
Mobile Payments: Mobile聽payment technologies like聽Apple Pay, Google Wallet, and聽Samsung Pay are becoming聽more popular as consumers聽seek more convenient and聽secure payment options.
Artificial Intelligence (AI): AI聽technologies are being聽integrated into mobile devices to聽provide personalized聽experiences and improve the聽functionality of apps. AI is being聽used in industries like聽healthcare, finance, and retail.聽
News related articles
Advantages of mobile technologies
The benefits of using mobile technology in business can lead to:
Better communication.
Increased collaboration with your team.聽
Remote work.
聽Reduced operational costs and saved time.聽
Increased productivity.聽
Real t
]]>
4830https://cdn.slidesharecdn.com/ss_thumbnails/mobiletechnologies-230411021038-d1f64382-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted0Network Technologies
/slideshow/network-technologiespptx-257296372/257296372
networktechnologies-230411003102-871159bf Network Technoologies
>>>>>>>>>>>>>>>
Office Productivity 2
<<<<<<<<<<<<<<<<
Introduction
Network Technologies is one of the most significant technological scientific discoveries of our time. Long before the Internet took over our lives, scientists and researchers worked to connect computers. Their efforts helped to establish our current state of networking. Network Technologies is significant in today's ever-changing information technology (IT) setting. Network and communication technologies have played a role in this rise. Endpoints and devices can be connected via computer networking on local area networks (LANs) or wide area networks (WANs). This enables interaction, communication, and resource sharing among businesses, service providers, and consumers.
History
History
1965
1972
1996
2001
History
Definition of Network Technology
News Related Articles
Examples/Latest Trends
Advantage
Disadvantage
Summary
Conclusion
References
Members
]]>
Network Technoologies
>>>>>>>>>>>>>>>
Office Productivity 2
<<<<<<<<<<<<<<<<
Introduction
Network Technologies is one of the most significant technological scientific discoveries of our time. Long before the Internet took over our lives, scientists and researchers worked to connect computers. Their efforts helped to establish our current state of networking. Network Technologies is significant in today's ever-changing information technology (IT) setting. Network and communication technologies have played a role in this rise. Endpoints and devices can be connected via computer networking on local area networks (LANs) or wide area networks (WANs). This enables interaction, communication, and resource sharing among businesses, service providers, and consumers.
History
History
1965
1972
1996
2001
History
Definition of Network Technology
News Related Articles
Examples/Latest Trends
Advantage
Disadvantage
Summary
Conclusion
References
Members
]]>
Tue, 11 Apr 2023 00:31:02 GMT/slideshow/network-technologiespptx-257296372/257296372BryCunal@slideshare.net(BryCunal)Network TechnologiesBryCunalNetwork Technoologies
>>>>>>>>>>>>>>>
Office Productivity 2
<<<<<<<<<<<<<<<<
Introduction
Network Technologies is one of the most significant technological scientific discoveries of our time. Long before the Internet took over our lives, scientists and researchers worked to connect computers. Their efforts helped to establish our current state of networking. Network Technologies is significant in today's ever-changing information technology (IT) setting. Network and communication technologies have played a role in this rise. Endpoints and devices can be connected via computer networking on local area networks (LANs) or wide area networks (WANs). This enables interaction, communication, and resource sharing among businesses, service providers, and consumers.
History
History
1965
1972
1996
2001
History
Definition of Network Technology
News Related Articles
Examples/Latest Trends
Advantage
Disadvantage
Summary
Conclusion
References
Members
<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/networktechnologies-230411003102-871159bf-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> Network Technoologies
>>>>>>>>>>>>>>>
Office Productivity 2
<<<<<<<<<<<<<<<<
Introduction
Network Technologies is one of the most significant technological scientific discoveries of our time. Long before the Internet took over our lives, scientists and researchers worked to connect computers. Their efforts helped to establish our current state of networking. Network Technologies is significant in today's ever-changing information technology (IT) setting. Network and communication technologies have played a role in this rise. Endpoints and devices can be connected via computer networking on local area networks (LANs) or wide area networks (WANs). This enables interaction, communication, and resource sharing among businesses, service providers, and consumers.
History
History
1965
1972
1996
2001
History
Definition of Network Technology
News Related Articles
Examples/Latest Trends
Advantage
Disadvantage
Summary
Conclusion
References
Members
]]>
20340https://cdn.slidesharecdn.com/ss_thumbnails/networktechnologies-230411003102-871159bf-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted0ARTIFICIAL INTELLIGENCE.pptx
/slideshow/artificial-intelligencepptx-257255485/257255485
artificialintelligence-230409063921-73e08007
Contents:
Introduction
History
Definition
Examples
New Related Literature
Advantage
Disadvantage
Summary
Conclusion
HISTORY
The idea of AI as far back as ancient Greece. Greek myths speak of Hephaestus, a blacksmith who created mechanical servants.
Fast forward to 1935, when the earliest substantial work in this field was done by Alan Turing, a logician and compter pioneer.
-TURING MACHINE
1951: Christopher Strachey wrote the first successful AI program
- COMPUTER CHECKERS PROGRAM
1956: John McCarthy coined the term Artificial Intelligence
1963: ANALOGY, a program created by Thomas Evans, proved that computers can solve IQ test analogy problems
1967: First successful knowledge-based program in science and mathematics
1972: SHRDLU created by Terry Winograd
- Robot arm responded to commands
1987: Marvin Minsky publishes The Society of Mind, which portrays the brain as a series of cooperating agents
1997: A chess program, Deep Blue, beats the current world chess champion, Gary Kasparov
2000鈥檚: Interactive robot smart toys are made commercially available
Define an Artificial Intelligence鈥︹€�. ?
EXAMPLES
1. Google Maps and Ride-Hailing Applications
2. Face Detection and Recognition
3. Text Editors or Autocorrect
4. Chatbots
5. Online-Payments
NEWS RELATED LITERATURE
ADVANTAGE
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Contents:
Introduction
History
Definition
Examples
New Related Literature
Advantage
Disadvantage
Summary
Conclusion
HISTORY
The idea of AI as far back as ancient Greece. Greek myths speak of Hephaestus, a blacksmith who created mechanical servants.
Fast forward to 1935, when the earliest substantial work in this field was done by Alan Turing, a logician and compter pioneer.
-TURING MACHINE
1951: Christopher Strachey wrote the first successful AI program
- COMPUTER CHECKERS PROGRAM
1956: John McCarthy coined the term Artificial Intelligence
1963: ANALOGY, a program created by Thomas Evans, proved that computers can solve IQ test analogy problems
1967: First successful knowledge-based program in science and mathematics
1972: SHRDLU created by Terry Winograd
- Robot arm responded to commands
1987: Marvin Minsky publishes The Society of Mind, which portrays the brain as a series of cooperating agents
1997: A chess program, Deep Blue, beats the current world chess champion, Gary Kasparov
2000鈥檚: Interactive robot smart toys are made commercially available
Define an Artificial Intelligence鈥︹€�. ?
EXAMPLES
1. Google Maps and Ride-Hailing Applications
2. Face Detection and Recognition
3. Text Editors or Autocorrect
4. Chatbots
5. Online-Payments
NEWS RELATED LITERATURE
ADVANTAGE
]]>
Sun, 09 Apr 2023 06:39:21 GMT/slideshow/artificial-intelligencepptx-257255485/257255485BryCunal@slideshare.net(BryCunal)ARTIFICIAL INTELLIGENCE.pptxBryCunal
Contents:
Introduction
History
Definition
Examples
New Related Literature
Advantage
Disadvantage
Summary
Conclusion
HISTORY
The idea of AI as far back as ancient Greece. Greek myths speak of Hephaestus, a blacksmith who created mechanical servants.
Fast forward to 1935, when the earliest substantial work in this field was done by Alan Turing, a logician and compter pioneer.
-TURING MACHINE
1951: Christopher Strachey wrote the first successful AI program
- COMPUTER CHECKERS PROGRAM
1956: John McCarthy coined the term Artificial Intelligence
1963: ANALOGY, a program created by Thomas Evans, proved that computers can solve IQ test analogy problems
1967: First successful knowledge-based program in science and mathematics
1972: SHRDLU created by Terry Winograd
- Robot arm responded to commands
1987: Marvin Minsky publishes The Society of Mind, which portrays the brain as a series of cooperating agents
1997: A chess program, Deep Blue, beats the current world chess champion, Gary Kasparov
2000鈥檚: Interactive robot smart toys are made commercially available
Define an Artificial Intelligence鈥︹€�. ?
EXAMPLES
1. Google Maps and Ride-Hailing Applications
2. Face Detection and Recognition
3. Text Editors or Autocorrect
4. Chatbots
5. Online-Payments
NEWS RELATED LITERATURE
ADVANTAGE
<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/artificialintelligence-230409063921-73e08007-thumbnail.jpg?width=120&height=120&fit=bounds" /><br>
Contents:
Introduction
History
Definition
Examples
New Related Literature
Advantage
Disadvantage
Summary
Conclusion
HISTORY
The idea of AI as far back as ancient Greece. Greek myths speak of Hephaestus, a blacksmith who created mechanical servants.
Fast forward to 1935, when the earliest substantial work in this field was done by Alan Turing, a logician and compter pioneer.
-TURING MACHINE
1951: Christopher Strachey wrote the first successful AI program
- COMPUTER CHECKERS PROGRAM
1956: John McCarthy coined the term Artificial Intelligence
1963: ANALOGY, a program created by Thomas Evans, proved that computers can solve IQ test analogy problems
1967: First successful knowledge-based program in science and mathematics
1972: SHRDLU created by Terry Winograd
- Robot arm responded to commands
1987: Marvin Minsky publishes The Society of Mind, which portrays the brain as a series of cooperating agents
1997: A chess program, Deep Blue, beats the current world chess champion, Gary Kasparov
2000鈥檚: Interactive robot smart toys are made commercially available
Define an Artificial Intelligence鈥︹€�. ?
EXAMPLES
1. Google Maps and Ride-Hailing Applications
2. Face Detection and Recognition
3. Text Editors or Autocorrect
4. Chatbots
5. Online-Payments
NEWS RELATED LITERATURE
ADVANTAGE