logging in or signing up Digital Signature aSGuest42216 Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 5591 Category: Product Traini.. License: All Rights Reserved Like it (5) Dislike it (0) Added: April 06, 2010 This Presentation is Public Favorites: 2 Presentation Description No description available. Comments Posting comment... By: sandipthorat (8 month(s) ago) nice !!!!!!!!!!!!!!! Saving..... Post Reply Close Saving..... Edit Comment Close Premium member Presentation Transcript Slide 1: Digital Signatures CCA Controller of Certifying Authorities Ministry of Communications & Information Technology Electronic Record : Electronic Record Very easy to make copies Very fast distribution Easy archiving and retrieval Copies are as good as original Easily modifiable Environmental Friendly Because of 4 & 5 together, these lack authenticity Slide 3: Why Digital Signatures? To provide Authenticity, Integrity and Non-repudiation to electronic documents To use the Internet as the safe and secure medium for e-Commerce and e-Governance Encryption : Encryption Caesar Cipher The shift is linear and equidistributed 3 changes I agree lcdjuhh Key Cipher The shift is linear (cyclic) 269 k.n.gupta 62 mewam3rzjba i+3=l Space=c [+3] k+2=m (dot)=e [+6] n=w [+9] Slide 5: ENCRYPTION Message 2 The Internet knows no geographical boundaries. It has redefined time and space. Advances in computer and telecommunication technologies have led to the explosive growth of the Internet. This in turn is affecting the methods of communication, work, study, education, interaction, leisure, health, governance, trade and commerce. Encrypted Message 2 a520eecb61a770f947ca856cd675463f1c95a9a2b8d4e6a71f80830c87f5715f5f59334978dd7e97da0707b48a1138d77ced56feba2b467c398683c7dbeb86b854f120606a7ae1ed934f5703672adab0d7be66dccde1a763c736cb9001d0731d541106f50bb7e54240c40ba780b7a553bea570b99c9ab3df13d75f8ccfdddeaaf3a749fd1411 Message 1 Central to the growth of e-commerce and e-governance is the issue of trust in electronic environment. Encrypted Message 1 9a46894335be49f0b9cab28d755aaa9cd98571b275bbb0adb405e6931e856ca3e5e569edd135285482 DECRYPTION Encrypted Message 1 9a46894335be49f0b9cab28d755aaa9cd98571b275bbb0adb405e6931e856ca3e5e569edd135285482 Message 1 Central to the growth of e-commerce and e-governance is the issue of trust in electronic environment. Encrypted Message 2 a520eecb61a770f947ca856cd675463f1c95a9a2b8d4e6a71f80830c87f5715f5f59334978dd7e97da0707b48a1138d77ced56feba2b467c398683c7dbeb86b854f120606a7ae1ed934f5703672adab0d7be66dccde1a763c736cb9001d0731d541106f50bb7e54240c40ba780b7a553bea570b99c9ab3df13d75f8ccfdddeaaf3a749fd1411 Message 2 The Internet knows no geographical boundaries. It has redefined time and space. Advances in computer and telecommunication technologies have led to the explosive growth of the Internet. This in turn is affecting the methods of communication, work, study, education, interaction, leisure, health, governance, trade and commerce. Digital Signatures : Digital Signatures Digital Signatures are numbers They are document content dependent I agree efcc61c1c03db8d8ea8569545c073c814a0ed755 My place of birth is at Gwalior. fe1188eecd44ee23e13c4b6655edc8cd5cdb6f25 I am 62 years old. 0e6d7d56c4520756f59235b6ae981cdb5f9820a0 I am an Engineer. ea0ae29b3b2c20fc018aaca45c3746a057b893e7 I am a Engineer. 01f1d8abd9c2e6130870842055d97d315dff1ea3 These are digital signatures of same person on different documents Slide 8: Concepts A 1024 bits number is a very big number much bigger than the total number of electrons in whole world. Trillions of Trillions of pairs of numbers exist in this range with each pair having following property A message encrypted with one element of the pair can be decrypted ONLY by the other element of the same pair Two numbers of a pair are called keys, the Public Key & the Private Key. User himself generates his own key pair on his computer Any message irrespective of its length can be compressed or abridged uniquely into a smaller length message called the Digest or the Hash. Smallest change in the message will change the Hash value Click for Hash Generation Slide 9: What is Digital Signature? Hash value of a message when encrypted with the private key of a person is his digital signature on that e-Document Digital Signature of a person therefore varies from document to document thus ensuring authenticity of each word of that document. As the public key of the signer is known, anybody can verify the message and the digital signature Slide 10: Digital Signatures Each individual generates his own key pair [Public key known to everyone & Private key only to the owner] Private Key – Used for making digital signature Public Key – Used to verify the digital signature Slide 11: RSA Key pair (including Algorithm identifier) [2048 bit] Private Key 3082 010a 0282 0101 00b1 d311 e079 5543 0708 4ccb 0542 00e2 0d83 463d e493 bab6 06d3 0d59 bd3e c1ce 4367 018a 21a8 efbc ccd0 a2cc b055 9653 8466 0500 da44 4980 d854 0aa5 2586 94ed 6356 ff70 6ca3 a119 d278 be68 2a44 5e2f cfcc 185e 47bc 3ab1 463d 1ef0 b92c 345f 8c7c 4c08 299d 4055 eb3c 7d83 deb5 f0f7 8a83 0ea1 4cb4 3aa5 b35f 5a22 97ec 199b c105 68fd e6b7 a991 942c e478 4824 1a25 193a eb95 9c39 0a8a cf42 b2f0 1cd5 5ffb 6bed 6856 7b39 2c72 38b0 ee93 a9d3 7b77 3ceb 7103 a938 4a16 6c89 2aca da33 1379 c255 8ced 9cbb f2cb 5b10 f82e 6135 c629 4c2a d02a 63d1 6559 b4f8 cdf9 f400 84b6 5742 859d 32a8 f92a 54fb ff78 41bc bd71 28f4 bb90 bcff 9634 04e3 459e a146 2840 8102 0301 0001 Public Key 3082 01e4 f267 0142 0f61 dd12 e089 5547 0f08 4ccb 0542 00e2 0d83 463d e493 bab6 0673 0d59 bf3e c1ce 4367 012a 11a8 efbc ccd0 a2cc b055 9653 8466 0500 da44 4980 d8b4 0aa5 2586 94ed 6356 ff70 6ca3 a119 d278 be68 2a44 5e2f cfcc 185e 47bc 3ab1 463d 1df0 b92c 345f 8c7c 4c08 299d 4055 eb3c 7d83 deb5 f0f7 8a83 0ea1 4cb4 3aa5 b35f 5a22 97ec 199b c105 68fd e6b7 a991 942c e478 4824 1a25 193a eb95 9c39 0a8a cf42 b250 1cd5 5ffb 6bed 6856 7b39 2c72 38b0 ee93 a9d3 7b77 3ceb 7103 a938 4a16 6c89 2aca da33 1379 c255 8ced 9cbb f2cb 5b10 f82e 6135 c629 4c2a d02a 63d1 6559 b4f8 cdf9 f400 84b6 5742 859d 32a8 f92a 54fb ff78 41bc bd71 28f4 bb90 bcff 9634 04de 45de af46 2240 8410 02f1 0001 Slide 12: Signed Messages Message + Signature Hash Decrypt Signature With Sender’s Public Key SIGN hash With Sender’s Private key Message + signature COMPARE Calculated Hash Message Sender Receiver Sent thru’ Internet if OK Signatures verified Slide 13: Paper signatures v/s Digital Signatures V/s Slide 14: Key Generation Random Numbers RSA Key Pair [Private/Public Key] Digital Signature Generate Message Digest [SHA1] Encrypting Digest using Private Key [Signatures] Attaching the Signatures to the message. Verification of Signatures Run the test for Authentication, Integrity and Non repudiation. Digital Signature Certificate ITU X.509 v3 Private key protection : Private key protection The Private key generated is to be protected and kept secret. The responsibility of the secrecy of the key lies with the owner. The key is secured using PIN Protected soft token Smart Cards Hardware Tokens PIN protected soft tokens : PIN protected soft tokens The Private key is encrypted and kept on the Hard Disk in a file, this file is password protected. This forms the lowest level of security in protecting the key, as The key is highly reachable. PIN can be easily known or cracked. Soft tokens are also not preferred because The key becomes static and machine dependent. The key is in known file format. Smart Cards : Smart Cards The Private key is generated in the crypto module residing in the smart card. The key is kept in the memory of the smart card. The key is highly secured as it doesn’t leave the card, the message digest is sent inside the card for signing, and the signatures leave the card. The card gives mobility to the key and signing can be done on any system. (Having smart card reader) Hardware Tokens : Hardware Tokens They are similar to smart cards in functionality as Key is generated inside the token. Key is highly secured as it doesn’t leave the token. Highly portable. Machine Independent. iKEY is one of the most commonly used token as it doesn’t need a special reader and can be connected to the system using USB port. Slide 19: Smart Card iKey Hardware Tokens Biometrics – adds another level of security to these tokens Public Key Infrastructure (PKI) : Public Key Infrastructure (PKI) Some Trusted Agency is required which certifies the association of an individual with the key pair. Certifying Authority (CA) This association is done by issuing a certificate to the user by the CA Public key certificate (PKC) All public key certificates are digitally signed by the CA Certifying Authority : Certifying Authority Must be widely known and trusted Must have well defined Identification process before issuing the certificate Provides online access to all the certificates issued Provides online access to the list of certificates revoked Displays online the license issued by the Controller Displays online approved Certification Practice Statement (CPS) Must adhere to IT Act/Rules/Regulations and Guidelines Must be widely known and trusted Must have well defined Identification process before issuing the certificate Provides online access to all the certificates issued Provides online access to the list of certificates revoked Displays online the license issued by the Controller Displays online approved Certification Practice Statement (CPS) Must adhere to IT Act/Rules/Regulations and Guidelines Slide 23: IDRBT Certificate Paper Electronic Public-Key Certification : Public-Key Certification Signed by using CA’s private key User Name & other credentials User’s Public key User Certificate Certificate Database Publish Certificate Request Key pair Generation Private Public Web site of CA User 1 certificate User 2 certificate . Public License issued by CCA Slide 25: Click for certificate generation demo Private key of CA or CCA require highest level of security Hardware Security Module (HSM) is used for storing the Private Key More than one person are required for signing HSM is housed in a strong room with video surveillance on 24x7 basis. Trust Path : Trust Path Controller is the Root certifying authority responsible for regulating Certifying Authorities (CAs) Controller certifies the association of CA with his public key Certifying Authority (CA) is the trusted authority responsible for creating or certifying identities. CA certifies the association of an individual with his public key Slide 27: Role of controller Controller of Certifying Authorities as the “Root” Authority certifies the technologies,infrastructure and practices of all the Certifying Authorities licensed to issue Digital Signature Certificates Slide 28: Summary Each individual has a pair of keys Public key of each individual is certified by a CA (Certifying Authority) Public keys of CAs are certified by the Controller Public key of the Controller is self certified Public keys of everyone are known to all concerned and are also available on the web Certification Practice Statement is displayed on the web site Slide 29: Applications in Judiciary Instant posting of judgment on the web. Secured electronic communications within judiciary Authentic archiving of Judicial records Submission of affidavits Giving certified copies of the Judgment Applications in Telecommunications : Applications in Telecommunications Subscribers Subscriber’s services management STD/ISD, Opening, Closing, Initializing Password Shifting of telephones, Accessories (Clip, Cordless) Small Payments through telephones bills Books, gifts, Internet purchases Mobile Authentication of SMS Share market trading, Intra/Inter office instructions Mobile Phones as Credit cards Mobile operator can venture into credit card business Applications in Telecommunications (contd.) : Applications in Telecommunications (contd.) Internal Intra/Inter offices authentic communications OBs, approvals, Instructions, requests Procurement of material Calling/Receiving bids, Purchase orders, Payment instructions Network Management functions Change of configuration, Blocking/unblocking routes Slide 32: Public Key Cryptography Encryption Technologies Document Document Encrypted Document Encrypted Document Public Key of B Confidentiality Private Key of B E-Governance : E-Governance Empowering Citizens Transparency Accountability Elimination of Intermediatory Encouraging Citizens to exercise their Rights Government Online : Government Online Issuing forms and licences Filing tax returns online Online Government orders/treasury orders Registration Online file movement system Public information records E-voting Railway reservations & ticketing E-education Online money orders Thank You : Thank You You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
Digital Signature aSGuest42216 Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 5591 Category: Product Traini.. License: All Rights Reserved Like it (5) Dislike it (0) Added: April 06, 2010 This Presentation is Public Favorites: 2 Presentation Description No description available. Comments Posting comment... By: sandipthorat (8 month(s) ago) nice !!!!!!!!!!!!!!! Saving..... Post Reply Close Saving..... Edit Comment Close Premium member Presentation Transcript Slide 1: Digital Signatures CCA Controller of Certifying Authorities Ministry of Communications & Information Technology Electronic Record : Electronic Record Very easy to make copies Very fast distribution Easy archiving and retrieval Copies are as good as original Easily modifiable Environmental Friendly Because of 4 & 5 together, these lack authenticity Slide 3: Why Digital Signatures? To provide Authenticity, Integrity and Non-repudiation to electronic documents To use the Internet as the safe and secure medium for e-Commerce and e-Governance Encryption : Encryption Caesar Cipher The shift is linear and equidistributed 3 changes I agree lcdjuhh Key Cipher The shift is linear (cyclic) 269 k.n.gupta 62 mewam3rzjba i+3=l Space=c [+3] k+2=m (dot)=e [+6] n=w [+9] Slide 5: ENCRYPTION Message 2 The Internet knows no geographical boundaries. It has redefined time and space. Advances in computer and telecommunication technologies have led to the explosive growth of the Internet. This in turn is affecting the methods of communication, work, study, education, interaction, leisure, health, governance, trade and commerce. Encrypted Message 2 a520eecb61a770f947ca856cd675463f1c95a9a2b8d4e6a71f80830c87f5715f5f59334978dd7e97da0707b48a1138d77ced56feba2b467c398683c7dbeb86b854f120606a7ae1ed934f5703672adab0d7be66dccde1a763c736cb9001d0731d541106f50bb7e54240c40ba780b7a553bea570b99c9ab3df13d75f8ccfdddeaaf3a749fd1411 Message 1 Central to the growth of e-commerce and e-governance is the issue of trust in electronic environment. Encrypted Message 1 9a46894335be49f0b9cab28d755aaa9cd98571b275bbb0adb405e6931e856ca3e5e569edd135285482 DECRYPTION Encrypted Message 1 9a46894335be49f0b9cab28d755aaa9cd98571b275bbb0adb405e6931e856ca3e5e569edd135285482 Message 1 Central to the growth of e-commerce and e-governance is the issue of trust in electronic environment. Encrypted Message 2 a520eecb61a770f947ca856cd675463f1c95a9a2b8d4e6a71f80830c87f5715f5f59334978dd7e97da0707b48a1138d77ced56feba2b467c398683c7dbeb86b854f120606a7ae1ed934f5703672adab0d7be66dccde1a763c736cb9001d0731d541106f50bb7e54240c40ba780b7a553bea570b99c9ab3df13d75f8ccfdddeaaf3a749fd1411 Message 2 The Internet knows no geographical boundaries. It has redefined time and space. Advances in computer and telecommunication technologies have led to the explosive growth of the Internet. This in turn is affecting the methods of communication, work, study, education, interaction, leisure, health, governance, trade and commerce. Digital Signatures : Digital Signatures Digital Signatures are numbers They are document content dependent I agree efcc61c1c03db8d8ea8569545c073c814a0ed755 My place of birth is at Gwalior. fe1188eecd44ee23e13c4b6655edc8cd5cdb6f25 I am 62 years old. 0e6d7d56c4520756f59235b6ae981cdb5f9820a0 I am an Engineer. ea0ae29b3b2c20fc018aaca45c3746a057b893e7 I am a Engineer. 01f1d8abd9c2e6130870842055d97d315dff1ea3 These are digital signatures of same person on different documents Slide 8: Concepts A 1024 bits number is a very big number much bigger than the total number of electrons in whole world. Trillions of Trillions of pairs of numbers exist in this range with each pair having following property A message encrypted with one element of the pair can be decrypted ONLY by the other element of the same pair Two numbers of a pair are called keys, the Public Key & the Private Key. User himself generates his own key pair on his computer Any message irrespective of its length can be compressed or abridged uniquely into a smaller length message called the Digest or the Hash. Smallest change in the message will change the Hash value Click for Hash Generation Slide 9: What is Digital Signature? Hash value of a message when encrypted with the private key of a person is his digital signature on that e-Document Digital Signature of a person therefore varies from document to document thus ensuring authenticity of each word of that document. As the public key of the signer is known, anybody can verify the message and the digital signature Slide 10: Digital Signatures Each individual generates his own key pair [Public key known to everyone & Private key only to the owner] Private Key – Used for making digital signature Public Key – Used to verify the digital signature Slide 11: RSA Key pair (including Algorithm identifier) [2048 bit] Private Key 3082 010a 0282 0101 00b1 d311 e079 5543 0708 4ccb 0542 00e2 0d83 463d e493 bab6 06d3 0d59 bd3e c1ce 4367 018a 21a8 efbc ccd0 a2cc b055 9653 8466 0500 da44 4980 d854 0aa5 2586 94ed 6356 ff70 6ca3 a119 d278 be68 2a44 5e2f cfcc 185e 47bc 3ab1 463d 1ef0 b92c 345f 8c7c 4c08 299d 4055 eb3c 7d83 deb5 f0f7 8a83 0ea1 4cb4 3aa5 b35f 5a22 97ec 199b c105 68fd e6b7 a991 942c e478 4824 1a25 193a eb95 9c39 0a8a cf42 b2f0 1cd5 5ffb 6bed 6856 7b39 2c72 38b0 ee93 a9d3 7b77 3ceb 7103 a938 4a16 6c89 2aca da33 1379 c255 8ced 9cbb f2cb 5b10 f82e 6135 c629 4c2a d02a 63d1 6559 b4f8 cdf9 f400 84b6 5742 859d 32a8 f92a 54fb ff78 41bc bd71 28f4 bb90 bcff 9634 04e3 459e a146 2840 8102 0301 0001 Public Key 3082 01e4 f267 0142 0f61 dd12 e089 5547 0f08 4ccb 0542 00e2 0d83 463d e493 bab6 0673 0d59 bf3e c1ce 4367 012a 11a8 efbc ccd0 a2cc b055 9653 8466 0500 da44 4980 d8b4 0aa5 2586 94ed 6356 ff70 6ca3 a119 d278 be68 2a44 5e2f cfcc 185e 47bc 3ab1 463d 1df0 b92c 345f 8c7c 4c08 299d 4055 eb3c 7d83 deb5 f0f7 8a83 0ea1 4cb4 3aa5 b35f 5a22 97ec 199b c105 68fd e6b7 a991 942c e478 4824 1a25 193a eb95 9c39 0a8a cf42 b250 1cd5 5ffb 6bed 6856 7b39 2c72 38b0 ee93 a9d3 7b77 3ceb 7103 a938 4a16 6c89 2aca da33 1379 c255 8ced 9cbb f2cb 5b10 f82e 6135 c629 4c2a d02a 63d1 6559 b4f8 cdf9 f400 84b6 5742 859d 32a8 f92a 54fb ff78 41bc bd71 28f4 bb90 bcff 9634 04de 45de af46 2240 8410 02f1 0001 Slide 12: Signed Messages Message + Signature Hash Decrypt Signature With Sender’s Public Key SIGN hash With Sender’s Private key Message + signature COMPARE Calculated Hash Message Sender Receiver Sent thru’ Internet if OK Signatures verified Slide 13: Paper signatures v/s Digital Signatures V/s Slide 14: Key Generation Random Numbers RSA Key Pair [Private/Public Key] Digital Signature Generate Message Digest [SHA1] Encrypting Digest using Private Key [Signatures] Attaching the Signatures to the message. Verification of Signatures Run the test for Authentication, Integrity and Non repudiation. Digital Signature Certificate ITU X.509 v3 Private key protection : Private key protection The Private key generated is to be protected and kept secret. The responsibility of the secrecy of the key lies with the owner. The key is secured using PIN Protected soft token Smart Cards Hardware Tokens PIN protected soft tokens : PIN protected soft tokens The Private key is encrypted and kept on the Hard Disk in a file, this file is password protected. This forms the lowest level of security in protecting the key, as The key is highly reachable. PIN can be easily known or cracked. Soft tokens are also not preferred because The key becomes static and machine dependent. The key is in known file format. Smart Cards : Smart Cards The Private key is generated in the crypto module residing in the smart card. The key is kept in the memory of the smart card. The key is highly secured as it doesn’t leave the card, the message digest is sent inside the card for signing, and the signatures leave the card. The card gives mobility to the key and signing can be done on any system. (Having smart card reader) Hardware Tokens : Hardware Tokens They are similar to smart cards in functionality as Key is generated inside the token. Key is highly secured as it doesn’t leave the token. Highly portable. Machine Independent. iKEY is one of the most commonly used token as it doesn’t need a special reader and can be connected to the system using USB port. Slide 19: Smart Card iKey Hardware Tokens Biometrics – adds another level of security to these tokens Public Key Infrastructure (PKI) : Public Key Infrastructure (PKI) Some Trusted Agency is required which certifies the association of an individual with the key pair. Certifying Authority (CA) This association is done by issuing a certificate to the user by the CA Public key certificate (PKC) All public key certificates are digitally signed by the CA Certifying Authority : Certifying Authority Must be widely known and trusted Must have well defined Identification process before issuing the certificate Provides online access to all the certificates issued Provides online access to the list of certificates revoked Displays online the license issued by the Controller Displays online approved Certification Practice Statement (CPS) Must adhere to IT Act/Rules/Regulations and Guidelines Must be widely known and trusted Must have well defined Identification process before issuing the certificate Provides online access to all the certificates issued Provides online access to the list of certificates revoked Displays online the license issued by the Controller Displays online approved Certification Practice Statement (CPS) Must adhere to IT Act/Rules/Regulations and Guidelines Slide 23: IDRBT Certificate Paper Electronic Public-Key Certification : Public-Key Certification Signed by using CA’s private key User Name & other credentials User’s Public key User Certificate Certificate Database Publish Certificate Request Key pair Generation Private Public Web site of CA User 1 certificate User 2 certificate . Public License issued by CCA Slide 25: Click for certificate generation demo Private key of CA or CCA require highest level of security Hardware Security Module (HSM) is used for storing the Private Key More than one person are required for signing HSM is housed in a strong room with video surveillance on 24x7 basis. Trust Path : Trust Path Controller is the Root certifying authority responsible for regulating Certifying Authorities (CAs) Controller certifies the association of CA with his public key Certifying Authority (CA) is the trusted authority responsible for creating or certifying identities. CA certifies the association of an individual with his public key Slide 27: Role of controller Controller of Certifying Authorities as the “Root” Authority certifies the technologies,infrastructure and practices of all the Certifying Authorities licensed to issue Digital Signature Certificates Slide 28: Summary Each individual has a pair of keys Public key of each individual is certified by a CA (Certifying Authority) Public keys of CAs are certified by the Controller Public key of the Controller is self certified Public keys of everyone are known to all concerned and are also available on the web Certification Practice Statement is displayed on the web site Slide 29: Applications in Judiciary Instant posting of judgment on the web. Secured electronic communications within judiciary Authentic archiving of Judicial records Submission of affidavits Giving certified copies of the Judgment Applications in Telecommunications : Applications in Telecommunications Subscribers Subscriber’s services management STD/ISD, Opening, Closing, Initializing Password Shifting of telephones, Accessories (Clip, Cordless) Small Payments through telephones bills Books, gifts, Internet purchases Mobile Authentication of SMS Share market trading, Intra/Inter office instructions Mobile Phones as Credit cards Mobile operator can venture into credit card business Applications in Telecommunications (contd.) : Applications in Telecommunications (contd.) Internal Intra/Inter offices authentic communications OBs, approvals, Instructions, requests Procurement of material Calling/Receiving bids, Purchase orders, Payment instructions Network Management functions Change of configuration, Blocking/unblocking routes Slide 32: Public Key Cryptography Encryption Technologies Document Document Encrypted Document Encrypted Document Public Key of B Confidentiality Private Key of B E-Governance : E-Governance Empowering Citizens Transparency Accountability Elimination of Intermediatory Encouraging Citizens to exercise their Rights Government Online : Government Online Issuing forms and licences Filing tax returns online Online Government orders/treasury orders Registration Online file movement system Public information records E-voting Railway reservations & ticketing E-education Online money orders Thank You : Thank You