Tarcsi Ádám: Bevezetés a blockchain alapjaiba. Blockchain projektek Magyarors...FinTechZone
Magyarország első blockchain és API konferenciája! Nagyító alatt a jövő technológiái és új jelenségei a pénzügyi szektorban. Ez lesz a fintech világán túl! Részletek: http://fintechzone.hu/a-fintechen-tul/
Czeglédi Tamás: Az IQ-tól az ICO-ig: A blockchain vonzásábanFinTechZone
Magyarország első blockchain és API konferenciája! Nagyító alatt a jövő technológiái és új jelenségei a pénzügyi szektorban. Ez lesz a fintech világán túl! Részletek: http://fintechzone.hu/a-fintechen-tul/
PKI alapok es az E-alairas muszaki hattere ertelmezese az uj EU jogszabalyi k...System Media Kft.
http://systemmedia.hu/rendezvenyek/pki-alapok-es-az-e-alairas-muszaki-hattere-ertelmezese-az-uj-eu-jogszabalyi-kornyezetben-eidas/
Jelentkezzen weboldalunkon!
2016. júliusában az eIDAS rendelet lényeges változásokat léptetett életbe az EU-n belüli elektronikus aláírások tekintetében. A képzés során egyrészt értelmezzük a rendeletet és bemutatjuk olyan területét, mint például az e-személyi igazolvány és annak lehetséges felhasználási köre, másrészt részletesen körüljárjuk az aláíráskészítés műszaki hátterét, amely a Nyilvános Kulcsú Infrastruktúrán (PKI) alapul.
A képzésen való részvétel az CISA, CISM, CGEIT és CRISC minősítéssel rendelkezőknek 7,5 CPE pontot biztosít, illetve minden egyes hallgató oklevélben részesül.
Central Bank Digital Currency (CBDC) refers to a digital form of central bank-issued currency that can be used by all citizens. While cash is universally accessible but not digital, and bank accounts are digital but not issued by central banks, CBDC aims to achieve both universal accessibility and being in digital form while still being issued by central banks. There are various design choices that central banks must make regarding CBDC including whether it is for retail or wholesale use, how programmable it can be, and what objectives it aims to achieve such as financial inclusion. National banks will play an important stakeholder role in CBDC and there are also macroeconomic and regulatory considerations for central banks to take into account regarding a CBDC.
Central banks are exploring issuing digital currencies known as CBDCs to modernize payments and currency systems. CBDCs could replace physical cash and be issued through central banks, making other payment systems like credit cards, bank notes, and cryptocurrencies obsolete. Central banks are researching how CBDCs could work within existing financial systems and what benefits and risks they may bring.
The document outlines Team Corvinus's challenge to address the "Pandemic of Mind" experienced by isolated elderly Italians during the COVID-19 pandemic. It proposes using behavioral insights and design to create an information portal providing COVID-19 information and resources to help combat isolation and fear. The team has already collected behavioral data, designed typical use case solutions, and created an initial information portal. Their next steps are to expand the reach of the portal through municipal authorities, improve its quality, and partner with hospitals and government organizations.
Tarcsi Ádám: Bevezetés a blockchain alapjaiba. Blockchain projektek Magyarors...FinTechZone
Magyarország első blockchain és API konferenciája! Nagyító alatt a jövő technológiái és új jelenségei a pénzügyi szektorban. Ez lesz a fintech világán túl! Részletek: http://fintechzone.hu/a-fintechen-tul/
Czeglédi Tamás: Az IQ-tól az ICO-ig: A blockchain vonzásábanFinTechZone
Magyarország első blockchain és API konferenciája! Nagyító alatt a jövő technológiái és új jelenségei a pénzügyi szektorban. Ez lesz a fintech világán túl! Részletek: http://fintechzone.hu/a-fintechen-tul/
PKI alapok es az E-alairas muszaki hattere ertelmezese az uj EU jogszabalyi k...System Media Kft.
http://systemmedia.hu/rendezvenyek/pki-alapok-es-az-e-alairas-muszaki-hattere-ertelmezese-az-uj-eu-jogszabalyi-kornyezetben-eidas/
Jelentkezzen weboldalunkon!
2016. júliusában az eIDAS rendelet lényeges változásokat léptetett életbe az EU-n belüli elektronikus aláírások tekintetében. A képzés során egyrészt értelmezzük a rendeletet és bemutatjuk olyan területét, mint például az e-személyi igazolvány és annak lehetséges felhasználási köre, másrészt részletesen körüljárjuk az aláíráskészítés műszaki hátterét, amely a Nyilvános Kulcsú Infrastruktúrán (PKI) alapul.
A képzésen való részvétel az CISA, CISM, CGEIT és CRISC minősítéssel rendelkezőknek 7,5 CPE pontot biztosít, illetve minden egyes hallgató oklevélben részesül.
Central Bank Digital Currency (CBDC) refers to a digital form of central bank-issued currency that can be used by all citizens. While cash is universally accessible but not digital, and bank accounts are digital but not issued by central banks, CBDC aims to achieve both universal accessibility and being in digital form while still being issued by central banks. There are various design choices that central banks must make regarding CBDC including whether it is for retail or wholesale use, how programmable it can be, and what objectives it aims to achieve such as financial inclusion. National banks will play an important stakeholder role in CBDC and there are also macroeconomic and regulatory considerations for central banks to take into account regarding a CBDC.
Central banks are exploring issuing digital currencies known as CBDCs to modernize payments and currency systems. CBDCs could replace physical cash and be issued through central banks, making other payment systems like credit cards, bank notes, and cryptocurrencies obsolete. Central banks are researching how CBDCs could work within existing financial systems and what benefits and risks they may bring.
The document outlines Team Corvinus's challenge to address the "Pandemic of Mind" experienced by isolated elderly Italians during the COVID-19 pandemic. It proposes using behavioral insights and design to create an information portal providing COVID-19 information and resources to help combat isolation and fear. The team has already collected behavioral data, designed typical use case solutions, and created an initial information portal. Their next steps are to expand the reach of the portal through municipal authorities, improve its quality, and partner with hospitals and government organizations.
The document discusses the 5 steps of an AI/ML innovation project:
1. Empathize and analyze to understand user needs and objectives.
2. Define and synthesize insights about key decisions and potential variables and metrics.
3. Ideate potential solutions by choosing a suitable machine learning model.
4. Prototype and tune by creating mockups to study user interactions and identify insights.
5. Test and validate prototypes using user testing and evaluating the machine learning model on test data.
The document discusses innovations in the financial technology (fintech) sector and future financial infrastructures. It outlines several areas of fintech innovation, including payments, deposits and lending, capital raising, investment management, and insurance. Emerging technologies like distributed ledgers, cryptocurrencies, blockchain, AI/ML, and social trading are driving changes. The future may see a distributed, value-based financial ecosystem built on blockchain and other technologies.
This document discusses big data and financial technology (FinTech) regulation. It begins with an overview of big data and FinTech, noting that big data collects all possible data to look for patterns, while FinTech uses innovative models and technology to enhance and disrupt financial services. It then examines regulatory frameworks in the US, EU, China, and Singapore that apply to big data and FinTech. Finally, it outlines some challenges and opportunities around complying with regulations like PSD2 and GDPR while also leveraging new technologies like big data and blockchain.
The document proposes a QR code-based attendance system as an improvement over traditional manual attendance methods. It outlines problems with current proxy and paper-based systems being time-consuming and prone to errors. The proposed solution uses a Neptune app to generate QR codes for each student, an on-premises scanner to record attendances, and Azure cloud storage. A demonstration of the prototype mobile and web apps was presented, showing the attendance dashboard for a paperless, fast, and proxy-free system.
This document discusses the benefits of artificial intelligence in the insurance industry. It identifies several key problems in the current insurance system such as high costs, labor intensivity, and underutilization of data. AI can help address these issues by automating repetitive tasks, analyzing structured and unstructured data, and providing more personalized services. This would lead to operational efficiencies through reduced costs and faster processes, as well as revenue expansion. Motor, life, health, and agro insurance are seen as highly impacted areas. The document outlines a roadmap for insurance companies to implement AI strategies through identifying technologies, enabling workforce skills, governance, and operating models.
This document discusses big data and financial technology (fintech) regulation. It begins with an overview of big data and fintech, noting that big data involves collecting all possible data and looking for patterns, while fintech involves innovative business models and technology for financial services.
It then examines the regulatory frameworks for big data and fintech in the US, EU, China, and Singapore. Key laws and regulations discussed include the Equal Credit Opportunity Act, Fair Credit Reporting Act, Unfair, Deceptive, or Abusive Acts and Practices, Revised Payment Service Directive, General Data Protection Regulation, Markets in Financial Instruments Directive, Personal Data Protection Act, and China's focus on healthcare data governance.
The document closes
The document discusses the evolution of financial technology (FinTech) beyond just banking. It notes that while FinTech and bank technology (BankTech) are related, they are not the same. It explores how FinTech innovations include applications of blockchain, artificial intelligence, cloud computing and other technologies. The document also examines potential use cases of blockchain in various industries like supply chain management, agriculture and land registry. It concludes by stating that FinTech will continue to evolve and drive innovation in financial services through 2020 and beyond.
This document discusses opportunities and challenges for using blockchain technology in agriculture. It begins with an overview of the evolution of blockchain from early distributed data storage systems and peer-to-peer networks to Bitcoin and the development of blockchain. Blockchain allows for a distributed ledger with consensus from the majority of the network. The document then discusses potential uses of blockchain in agriculture for food safety and traceability, reducing transaction costs, facilitating agri-trade finance, opening new markets, improving logistics, and using smart contracts. In conclusion, it suggests blockchain could transform agricultural transactions similar to how the Internet transformed access to information.
The document discusses the future of cryptocurrencies and blockchain technology. It notes that while bitcoin was first proposed in 2008, it has taken 10 years for real use cases to emerge. However, 2018 saw significant growth and new applications being developed. Going forward, the technology is moving towards an equilibrium state where mainstream uses are established while continuing to improve efficiency and sustainability.
This document discusses the author's experiences with blockchain technology through three stories. The first story discusses the value of the Mona Lisa over time. The second story shows calculations to demonstrate mathematical properties. The third story outlines the author's work establishing blockchain education programs including courses on blockchain as an operating system, applications, and capstone projects. It also quotes that blockchain will transform transactions like the internet transformed information.
The document discusses applications of cyber-physical systems and robotics. Some key areas discussed include smart manufacturing using robotics working safely with humans, transportation systems using vehicle-to-vehicle communication and autonomous vehicles, smart energy grids, infrastructure monitoring using sensors, and medical devices. The integration of computation, networking, and physical processes allows innovative applications that can improve efficiency, safety, reliability and sustainability across many sectors.
The document discusses the 5 steps of an AI/ML innovation project:
1. Empathize and analyze to understand user needs and objectives.
2. Define and synthesize insights about key decisions and potential variables and metrics.
3. Ideate potential solutions by choosing a suitable machine learning model.
4. Prototype and tune by creating mockups to study user interactions and identify insights.
5. Test and validate prototypes using user testing and evaluating the machine learning model on test data.
The document discusses innovations in the financial technology (fintech) sector and future financial infrastructures. It outlines several areas of fintech innovation, including payments, deposits and lending, capital raising, investment management, and insurance. Emerging technologies like distributed ledgers, cryptocurrencies, blockchain, AI/ML, and social trading are driving changes. The future may see a distributed, value-based financial ecosystem built on blockchain and other technologies.
This document discusses big data and financial technology (FinTech) regulation. It begins with an overview of big data and FinTech, noting that big data collects all possible data to look for patterns, while FinTech uses innovative models and technology to enhance and disrupt financial services. It then examines regulatory frameworks in the US, EU, China, and Singapore that apply to big data and FinTech. Finally, it outlines some challenges and opportunities around complying with regulations like PSD2 and GDPR while also leveraging new technologies like big data and blockchain.
The document proposes a QR code-based attendance system as an improvement over traditional manual attendance methods. It outlines problems with current proxy and paper-based systems being time-consuming and prone to errors. The proposed solution uses a Neptune app to generate QR codes for each student, an on-premises scanner to record attendances, and Azure cloud storage. A demonstration of the prototype mobile and web apps was presented, showing the attendance dashboard for a paperless, fast, and proxy-free system.
This document discusses the benefits of artificial intelligence in the insurance industry. It identifies several key problems in the current insurance system such as high costs, labor intensivity, and underutilization of data. AI can help address these issues by automating repetitive tasks, analyzing structured and unstructured data, and providing more personalized services. This would lead to operational efficiencies through reduced costs and faster processes, as well as revenue expansion. Motor, life, health, and agro insurance are seen as highly impacted areas. The document outlines a roadmap for insurance companies to implement AI strategies through identifying technologies, enabling workforce skills, governance, and operating models.
This document discusses big data and financial technology (fintech) regulation. It begins with an overview of big data and fintech, noting that big data involves collecting all possible data and looking for patterns, while fintech involves innovative business models and technology for financial services.
It then examines the regulatory frameworks for big data and fintech in the US, EU, China, and Singapore. Key laws and regulations discussed include the Equal Credit Opportunity Act, Fair Credit Reporting Act, Unfair, Deceptive, or Abusive Acts and Practices, Revised Payment Service Directive, General Data Protection Regulation, Markets in Financial Instruments Directive, Personal Data Protection Act, and China's focus on healthcare data governance.
The document closes
The document discusses the evolution of financial technology (FinTech) beyond just banking. It notes that while FinTech and bank technology (BankTech) are related, they are not the same. It explores how FinTech innovations include applications of blockchain, artificial intelligence, cloud computing and other technologies. The document also examines potential use cases of blockchain in various industries like supply chain management, agriculture and land registry. It concludes by stating that FinTech will continue to evolve and drive innovation in financial services through 2020 and beyond.
This document discusses opportunities and challenges for using blockchain technology in agriculture. It begins with an overview of the evolution of blockchain from early distributed data storage systems and peer-to-peer networks to Bitcoin and the development of blockchain. Blockchain allows for a distributed ledger with consensus from the majority of the network. The document then discusses potential uses of blockchain in agriculture for food safety and traceability, reducing transaction costs, facilitating agri-trade finance, opening new markets, improving logistics, and using smart contracts. In conclusion, it suggests blockchain could transform agricultural transactions similar to how the Internet transformed access to information.
The document discusses the future of cryptocurrencies and blockchain technology. It notes that while bitcoin was first proposed in 2008, it has taken 10 years for real use cases to emerge. However, 2018 saw significant growth and new applications being developed. Going forward, the technology is moving towards an equilibrium state where mainstream uses are established while continuing to improve efficiency and sustainability.
This document discusses the author's experiences with blockchain technology through three stories. The first story discusses the value of the Mona Lisa over time. The second story shows calculations to demonstrate mathematical properties. The third story outlines the author's work establishing blockchain education programs including courses on blockchain as an operating system, applications, and capstone projects. It also quotes that blockchain will transform transactions like the internet transformed information.
The document discusses applications of cyber-physical systems and robotics. Some key areas discussed include smart manufacturing using robotics working safely with humans, transportation systems using vehicle-to-vehicle communication and autonomous vehicles, smart energy grids, infrastructure monitoring using sensors, and medical devices. The integration of computation, networking, and physical processes allows innovative applications that can improve efficiency, safety, reliability and sustainability across many sectors.
2. "A pénz nem játék!
Vagy mégis?"
„Mi van a Bitcoin mögött?” címmel kerül megrendezésre a Corvinus Fintech
Center és a Blockchaineum közös szervezésében a Block Knights Contest, az
első magyarországi blockchain technológiai verseny Kick-Off eseménye.
A Bitcoin és minden kriptovaluta „mögött” magas szintű matematika,
konszenzus mechanizmusok, kriptográfia, elosztott rendszerek és
elképesztően nagy számítási kapacitás garantálja a biztonságos,
megmásíthatatlan, transzparens, decentralizált, skálázható, olcsó és gyors
működést.
Egyik oldalról minden felsorolt tulajdonságot meg lehet kérdőjelezni, a másik
oldalon pedig még ennél is többről szól, hiszen a blockchain technológia –
mert róla van szó – hihetetlenül sokat tartogat még számunkra a nem is olyan
távoli jövőben, ha csak egy kis része is igaz annak, amit a technológiával
foglalkozók várnak tőle sőt, már jelenleg is olyan szinte felfoghatatlan
újításokkal kezdtek a bizalom automatizálásához, mint az okos szerződések.
A tokenizáció pedig új megvilágításba helyezheti az érték felosztásáról és
egységnyi alkalmazhatóságáról alkotott képünket.
Kire bízzuk hát a pénzünket, a jegybankárokra vagy inkább bizánci
tábornokokra? Erről fogunk beszélgetni a kerekasztal résztvevőivel.
Erre a provokatív kérdésre keressük a választ,
akik pedig ebben segítségünkre lesznek: a
legnagyobb hazai egyetemek (BCE, BME, ELTE)
oktatói, a téma szakértői, valamint az üzleti élet
és a pénzügyi világ képviselői.
Játékelmélet versus nemzeti össztermék és
központi szereplő vagy decentralizáció?
4. Block Knights Contest 2018
Magyarország első blockchain témára épülő
versenye.
A digitális forradalom derekán naponta
születnek és vesznek feledésbe technológiák.
Van azonban egy, amely fénykorát éli és
emberek milliárdjainak életét teheti jobbá
rövidesen. Ez az innováció a blockchain.
Szükségszerűen elérkezett az idő, hogy teret
adjunk azoknak a nagyszerű ötleteknek, melyek
hozzá tudnak tenni világunk és országunk
fejlődéséhez.
A Block Knights Contest keretein belül
lehetőséget biztosítunk a pályázóknak, hogy
bemutassák, milyen blockchain technológiára
épülő projekttel tudnák színesebbé tenni
életünket, illetve milyen problémára találtak
megoldást a technológia segítségével.
A legjobb pályázatok komoly pénzjutalmat és
konzultációs támogatást kapnak a legjobb
mentoroktól.