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 Proposed by Abreu Advogados

  Abreu Advogados was created in 1993 and  currently has more than 200 lawyers in a team of more than 300  professionals. This is an independent law firm that develops  institutional relationships with several legal associations and  international law firms. At Abreu Advogados it is promoted the policy of  the 3Qs: Human Quality, Technical Quality and Organizational Quality.  Abreu Advogados is present in Portugal with 3 offices and has  partnerships with law firms in Angola, Brazil, Cape Verde, China,  Mozambique and Timor-Leste (joint office). 

Winner Project - Altantis Blockchain Explorer 

  The concept proposed by Altantis Blockchain Explorer is focused on  the development of a mobile app for Android and iOS considering the  following features:

- Creation of a marketplace for smart contracts (valid for buy and sell contracts, for instance);

- A chat interface so that all parties  involved can have the chance to discuss, negotiate and develop the  digital contracts on the Blockchain;

- Digital arbitration within smart contracts;

- Using Artificial Intelligence for the  ranking of contractors, service providers, mediators, and parametric  legal contracts' models.

 Finalist Project - TechHQ

  TechHQ has presented a solution that allows:

- To access legal documents of a particular network and according to  the accessibility policies dictated by the entity responsible for the  Blockchain;

- Validate and verify the validity of documents on the Blockchain;

- Observe the history of document validations on the Blockchain.

 Challenge Description 

  New technologies and approaches such as  on-demand, distributed ledgers (including technologies such as  Blockchain), artificial intelligence, and automation are being  incorporated into traditional contracts, and legal processes.

  At the same time new models of  contractual use are developing where contractual static relations is  giving way to dynamic subscription and other relationship models. For  instance in transport, car ownership is increasingly having to compete  with new models of rental and access services. These models will also  require a new cadre of contractual services which are focused on dynamic  contractual terms.

  The combination of these trends opens an  opportunity for the development of smart contract based services which  help co-ordinate and make more efficient the development, use,  maintenance and service of legal relationships.

  We would be interested in services which  span across traditional boundaries of legal and services providing  distributed informed solutions to make these processes better  co-ordinated, secure and more efficient and provide platforms for new  models of use.

  We are particularly interested in solutions that leverage open and shared data to:

- Help ensure the integrity of interactions within smart contracts;

- Integrate data of different modalities  (sensors, legal data, historical records, event triggers) to produce  useful services and establish new types of relationships;

- Use legal data to predict contract change needs and create more efficient servicing and legal services; and

- Predict and help optimise contract usage and parties satisfaction level, including in multi-stakeholder scenarios.

  Proposed by Grupo Almedina

  Grupo Almedina (Almedina Group) was  founded in 1955 in Coimbra in front of the famous Arco de Almedina by  Joaquim Machado. Although a small bookshop at the time, in the last more  than 60 years, Almedina has established itself as one of the most  relevant book publishers in Portugal. By working closely with the  universities and facing the need of publishing academic books, soon  Almedina has gained its market place in the publishing industry.

  Contributing to the diffusion of new  authors and currents of opinion and research, the publishing houses  of the Almedina Group are mainly positioned in the areas of technical  knowledge not neglecting the publication of works that contribute to  critical thinking and reflection. Edições Almedina, widely recognized as  a leader in legal issues in Portugal, also publishes, among others, in  the areas of medicine, psychology, education, economics and exact  sciences. In order to improve and enhance these areas of action, the  Almedina Group acquired two publishers, Actual Editora - in the areas of  Economics and Management - and Edições 70 - recognized for publishing  books in the area of Social and Human Sciences.

  Along with the publishing business, the  Group expanded its bookstore network, which emerged along the main  academic centers of the country: Braga, Porto, Coimbra, and Lisbon. At  the moment there are eleven physical bookstores and a virtual bookstore  (available at www.almedina.net),  with a general offer privileging the editorial quality fund.    The  Almedina Group has been particularly attentive to the CPLP markets,  having created, in 2005, Almedina Brasil, based in São Paulo, and  established partnerships for the markets of Angola and Mozambique.

Description

  How can we use Blockchain to make  content production and authoring more trustworthy and protect authors'  content authenticity and safety online?

Contextualization

  The Web as we know it is going through a  critical stage with a number of trends threatening the principles in  which it was originally developed. In some areas there is an increasing  dissatisfaction with the amount of misinformation being shared online - a  phenomenon recently identified as "fake news". Simultaneously, the  original values of the Web in relation to openness and tolerance have  been challenged by an increase in mistrust (cyber attacks and bullying)  and copywright infringement. To conclude, the freedom which was  envisaged for individuals and companies is being threatened by content  authentication and security concerns, in some part driven by the  business models adopted by some of the main commercial players. These  concerns were raised by none other than Sir Tim Berners-Lee, the  inventor of the World Wide Web in an open letter.

  Content based products and services will  play a vital role in creating a more open and tolerant Web, as well as  showing how commercial value can be created by helping combat these  concerns. For instance, Blockchain algorithms and AI could assign trust  scores to websites based on the content reliability could  cross-reference facts across the web, as well as predict the likelihood  of content being “fake” based on other data.

  We are particularly interested in solutions that leverage closed and co-created content to:

- Identify, define and predict “fake sources” as well as provide a means for fact checking information prior to publishing;

- Build tools and services that alert authors of authoring vulnerabilities;

- Create solutions which combat authoring algorithm bias;

- Provide means for checking compliance when new laws and regulations are produced; and

- Monetize content for distribution and curation.

Data

  Examples of data include but are not limited to:

- authored content

- digital archives

- content from producers and consumers

- content from news agencies

- customer segmentation data

Expected outcomes

  Examples of outcomes may include but are not limited to:

- new apps and services (web, mobile etc), publishing tools for news and online articles

- new algorithms (for information propagation, provenance mining, prediction, content recognition etc.)

- new technologies to integrate data sources

- new tools and business processes to support decision making that make insights of algorithms easier to understand

- new forms of content hardware (e.g. wearables, VR, AR).

Expected impacts

  Participants will need to provide details on the impact measurement framework they would use to show how their solution:

- helps people produce, consume and get better access to high quality information;

- improves the accuracy of content, news and information online;

- improve awareness of misinformation online.

- make content producers feel safer online; and/or

- make content producers more aware of how their content is being used and where there are vulnerabilities.

Please check the full regulation in PDF for this challenge.

Proposed by Associação Portuguesa de Seguradores

  Associação Portuguesa de Seguradores,  APS, was founded in 1982, and is a non-profit association of the  insurance and reinsurance companies operating in the Portuguese market,  irrespective of their legal nature or country of origin. The members of  APS presently account for 99% of the insurance market in terms of  business turnover and human resources employed by the sector.

The Challenge

  How can we automate the collection,  verification and authorization of land registration information in the  context of realty multi-risk insurance to ensure a prompt response to  the insured? Blockchain technology can be a very useful and powerful  tool for verifying and obtaining key information from the Land Registry  in the context of the application of realty multi-risk insurances and  disaster funds and the adequacy of premiums in the underwriting of  equity risks.

Description

  Can a Blockchain-based solution be used  to verify, obtain and authorize the transfer of information from the  Land Registry in the context of the application of disaster funds?

Context

  There are several possible use cases of  Blockchain technology in the insurance sector and all of them with  enormous disruptive potential from the point of view of the profound  changes that can provoke in the current business models of this  industry. Considering the urgent need for insurers to collect as much  accurate information as possible in certain areas (land, car,  citizenship and other registers), one of the possibilities lies in the  interoperability between insurers' products and government databases, as  is the case of the Land Registry.

  As demonstrated by the United Nations Development Program (UNDP), the example of the earthquake that devastated Haiti in 2010 is  very illustrative of the existing problems all around the world  regarding situations of crises and catastrophes. During the process of  reconstruction of the country, the difficulty in identifying the owners  of the land subject to intervention constituted a strong obstacle to the  beginning of the reconstruction work of the Haitian infrastructures.

  With a Blockchain-based solution, this  problem could be solved effectively by developing immutable records over  which there is no doubt as to the authenticity, ownership and  responsibility of the data contained therein. In this way, the records  are permanently linked to the system so that they are not tampered or  forged, increasing the transparency, robustness and agility of the  entire process.

  Having said this and considering the  possibilities arising from the application of such a solution in  Portugal, it is intended to create the necessary conditions for  verification and obtaining essential information of the land register  (whether from the Land Registry or of the carnet made available by the  Tax Authority) in cases of seismic risk. Taking this approach into  account, the way in which the disaster funds are applied and the  adequacy of the premiums in the subscription of the equity risks can be  improved.

  From the point of view of the  application of Blockchain-based solutions by the APS, a proposal to  solve the presented problem can only gather characteristics that work  the sector as a whole, approaching all the players involved and pointing  to a solution that is transversal to this industry. With this  challenge, we intend to:

- To have a complete  view of the Portuguese housing stock so that the products presented by  the insurers are as accurate as possible;

- Identify the characteristics of the property and the owner in the area of seismic risk and in the case of urban assets; and

- Use the matrix  article (a key) to perform searches in the land registry; or Fiscal  Identifying Number (NIF) and article matrix, the county/parish of the  fraction under analysis to search the records of the Tax Authority in  order to obtain information from the land registry.

Data

  Examples of anonymized data that may be  made available for the development of a Minimum Valuable Product (MVP)  or Proof of Concept (PoC) include, but are not limited to:

- Actuarial data of catastrophes (earthquakes, floods, etc.);

- Dates of beginning and closing of the insurance;

- Dates of loss and participation;

- CAE (the Portuguese classification of economic activities) of the activity, in the case of companies;

- Type of product (Housing, Condominium, Commerce, Industry/Manufacturing, Commerce and Services, Engineering);

- Type of insured object (Building, Belongings, Building and Inseparable Belongings, Company Activity, etc.);

- Affected coverage (Seismic Phenomena, Landslides/Geological Accidents, Exploration Losses/Profits/Rents, etc.);

- Type of compensation (Total Loss or Partial Loss).

Expected outcomes

  Examples of outcomes may include but are not limited to:

- Solutions that guarantee the robustness and reliability of the data provided by the different interlocutors;

- Applications,  tools or services that are triggered in the event of a disaster in order  to have accurate, immediate and total visibility of the affected areas,  allocated coverage and compensatory payments;

- Algorithm that assures the accumulation of risk;

- Integration of georeferencing tools;

- Access features to legacy systems that allow systems transition processes.

Expected impacts

  Participants will need to provide details on the impact measurement framework they would use to show how their solution:

- Ensure the harmonization of concepts in the sector;

- Ensure the agility  of the Subscription, Claims and Reinsurance processes, improving their  speed, dematerialization and digitization;

- Ensure the transparency of the process, the reliability of the data and the resulting benefits;

- Improve visibility on areas not covered by disaster insurance;

- Increase the transparency of the process and accelerate the process of reparation to the insured.

Please check the full regulation in PDF for this challenge.

 Proposed by BCSD

  BCSD Portugal – Conselho Empresarial para o Desenvolvimento  Sustentável (Enterprise Council for Sustainable Development) is a  non-profit association of public interest that represents companies  engaged with sustainability. Through the conception of inter-companies  projects that promote sustainable development, BCSD Portugal has been an  active player in Portugal over the last 15 years. Inspiring new  business models that are competitive, innovative, responsible,  sustainable and inclusive, BCSD Portugal is the leader organization in  sustainable development within the business community.

Description

  The World Economic Forum has already  stated that carbon credits are the perfect candidates for crypto tokens  as these are data-driven, rely on multiple approval steps and are  independent from the physical impact to which they correlate.  Furthermore, through smart contracts and verifiable transactions,  Blockchain technology addresses all the concerns and challenges  associated with lack of standardization.

  With this challenge, we aim to encourage  the development of solutions that increase suppliers’ accountability  within the supply chain of a company or group of companies. Blockchain  can help companies meet the demand for accurate, reliable, standardized  and available information for carbon emission calculation. Blockchain  technology promotes instant authentication, immutable data records and  smart contracts to integrate suppliers, manufacturers, logistics service  providers, and stocking locations into a single network for rule-based  interactions and value generation.

  The Blockchain technology has enormous  potential to combine efforts and aggregate information with the goal of  tracking – and thus reducing – the carbon footprint reduction of any  given final product. In a Blockchain network, each party will be able to  report the carbon emissions across their individual value chains based  on standardized metrics, thereby creating a single platform for carbon  measurement. Blockchain can deliver standardized and accepted algorithms  to calculate carbon emissions. This can be one of the key benefits of  the integrated platform.

  Moreover, connecting Blockchain to  various source systems such as ERP and SCADA will simplify data  gathering across the supply chain, thereby improving visibility at lower  cost, time and effort. Manufacturers, suppliers and distributors can  work together in a transparent and accountable manner with the original  equipment manufacturer (OEM) or retailer to drive a unified carbon  ecosystem with accurate measurement and credits.

  A possible solution is to develop a SCM  monitoring network that provides carbon footprint data and patterns to  help governments and companies define policies and best practices for  incentivize low carbon footprint and sustainable product development.

  We are particularly interested in solutions that leverage shared data and distributed solutions to:

- Use SCM carbon footprint data to predict product carbon weight and create more carbon efficient product designs

- Guarantee the sustainability of suppliers within the supply chain of a company or group of companies;

- Integrate data of different modalities  (carbon metrics, SCM data, total cost of carbon footprint) to produce  useful data services;- Forecast and optimise SCM usage and consumer and end user satisfaction levels, including in multi-stakeholder scenarios.

Data

  Examples of data include, but are not limited to:

-SC Carbon footprint data

- ERP, SCM data

- Company data

- Maintenance and usage history

- Environmental data

- Geospatial data

Expected outcomes

  Examples of outcomes may include, but are not limited to:

- SC carbon footprint monitoring Blockchain based solution

- New algorithms (supply chain analysis  and monitoring, carbon footprint analysis, prediction of spikes in  carbon footprint, event processing)

- DLT Tools for footprint reporting and visualisation of analytics results

Expected impacts

  Participants will need to provide  details on how they would develop a Blockchain solution as well as to  demonstrate how that solution can:

- Monitor carbon footprint

- Disclose reliable information about a product’s carbon footprint

- Improve overall company sustainability and reputation

- Minimize consumer risks; and/or support low carbon footprint providers and SCM pathways

- Monitor and compare data on consumption trends and carbon footprint

Please check the full regulation in PDF for this challenge.

 Proposed by EMEL

  It  is with a great orientation towards innovation and excellence that EMEL  – Empresa Municipal de Mobilidade e Estacionamento de Lisboa, E. M., S.  A. (Lisbon Municipal Enterprise of Mobility and Parking) commits itself  to make Lisbon a more modern, accessible and sustainable city, while  making sure the necessary economic and social balance with the  development of new technological solutions on a long-term perspective.  EMEL also aims to improve the mobility conditions within the city and to  provide their clients the time and money-saving needed to the  functioning of smart and organized cities.

Winning Project

  The concept proposed by Marionete facilitates the process of issuing  couplets and makes this process much more efficient, less bureaucratic  and less susceptible to fraud.

For eligible customers, it means that they could purchase a parking ticket in a much simpler and immediate way.

  Based on Blockchain technology, this solution and the guarantees it  provides enable different organizations to share processes and  information securely and in this way it becomes possible to streamline  processes, improve the results of these organizations and people's  lives. 

Description

 Blockchain  technology has been applied to identity applications in areas such as  passports, digital identities, residency, birth documentation, wedding  certificates, identifications, online account logins, among others.  Creating an identity on Blockchain can give companies and individuals  greater control over who has which information and how to access it.  Recently, in February 2018 Dubai’s Roads and Transport Authority (RTA)  announced plans to setup a Blockchain-based vehicle lifecycle management  system in 2020 that will provide customers a vehicle history.

  By combining a decentralized Blockchain  with identity verification, a unique identification can be linked to act  as a watermark which can be assigned to every transaction of any asset.  As Blockchain addresses all of the functionalities and challenges  associated with identification and verifiable transactions this presents  a great opportunity for matching car ownership titles with a specific  parking disc.

  With this challenge we would be interested in one of two solutions:

  A) A unique Blockchain that integrates  data (car ownership title data and parking disc data) from both  entities. Such solution must integrate both EMEL and IMT requirements.

or

  B) two Blockchain based on an open,  interoperable foundation with a robust decentralized identity ecosystem  that is accessible to all. The solution can be based on Decentralized  Identity Foundation (DIF) with the following key components: W3C  Decentralized Identifiers (DIDs); Identity Hubs; Universal DID Resolver  and Verifiable Credentials.

  We are particularly interested in solutions that leverage shared data and distributed solutions to:

- Use car ownership title data to match with parking disc data and create an integrated registry

- Integrate data of records (car ownership, owner data, parking disc data) to produce useful data services;

- Guarantee the robustness of the registry records within both car ownership and parking registry entities;

- Predict future car parking disc needs and increase owners satisfaction levels.

 Description

  The challenge is an initiative developed by everis Portugal in  partnership with the Portuguese Blockchain Alliance. It is based on the  following challenge: How can we use Blockchain in the Human Resources  hiring process for a company? Through this challenge, is intended to  automate the process of hiring human resources for a company, ensuring  that the certificates and courses of the participant presented in the  curriculum are legitimate, that the signature of the contract between  employee and employer is automated through the digital signature and  that the work’s insurance agreement between employer and insurer is  instantaneously done.

  The everis Blockchain Challenge has as objectives:

  a) Authenticate the curriculum information, done by the training institutions;

  b) Automate the process of agreements with external entities in the  hiring process (e.g., Insurance, Health Insurance, Food Coupons);

  c) Track the information in the curriculum throughout employee life cycle;

  d) Promote contracts signatures by employee and employer, by digital  key, making the access to copies instantly available to both parties.

  The platform should ensure to be in compliance with GDPR, data  security and also contribute to the decrease of the use of paper during  the hiring processes.

Expected outcomes

  As expected outcomes, is the presentation of solutions in automation  the process of hiring human resources, taking into account aspects such  as feasibility, validity, originality, or degree of innovation, for  example.

  The expected solutions can be presented as new apps, services,  algorithms, technologies to integrate databases and new tools that  support business decisions.

Expected impacts

  Contribute to the improvement of organizational processes, in order  to develop innovative solutions, taking into account the use of  Blockchain technology. The measurement of the impact will be made  through the analysis of the solutions, according to the following  criteria:

- Confidence in the information in the curriculum;

- Efficiency in the relationship with external entities;

- Curriculum monitoring

- Facilitated contract signature process.

Please check the full regulation for this challenge in this PDF file.

 Proposed by Fidelidade

  Fidelidade  is the leading market insurer in Portugal, both in life and non-life,  with a market share of around 27.7%. The company is present in the  various insurance business segments and benefits from the largest  network in Portugal, with a presence in several countries, namely  Angola, Cape Verde, Mozambique, Spain, France and Macau.

Winning project

  The solution presented by Multicert is based on the creation of  insurance for a single sporting event, such as a half-marathon, for  example, that the participant can do. The winning team presented an  automation and simplification of the network operation necessary for  this type of insurance can be sold.

  The winning solution is based on the concept of smart contracts, with  a predefined set of parameters and validations that enable the  elimination of human actors in the analysis and decision phases.

Finalist Project

  The proposed idea corresponds to the SIS ^ 1 platform aimed at  collaborative short-term insurance management, based on blockchain  technology and smart contracts, considering distributed and  collaborative processing by all elements of the network. This solution  has the potential to considerably transform traditional claims and  claims participation processes, and enables the adoption of disruptive  business models with a high level of automation and fraud prevention.

Description

  Challenge A: One-time insurance for sporting events ("closed" challenge that addresses a specific need of the Fidelidade business).

  The increasing supply and accessibility  of generic sports events, accompanied by widespread motivation for its  practice by the general population, creates a relevant opportunity for  an innovative positioning by insurance companies, available to cover the  risks of accidents of the participants.

  The aim of this challenge is to  stimulate the development of a Blockchain network that allows the rapid  and pragmatic subscription of these products, guaranteeing the  participation of several nodes at the level of a) organization,  responsible for recognizing the participants; b) entities certifying the  claim in the field and c) the participants themselves; and d) the  Insurer itself. In this solution, the following should be guaranteed:

- The subscription processes (upon registration or until a period before the date of the event);

- The recognition of participation in the event or the cancellation in case of cancellation or no-show;

- The creation of sinister;

- Recognition by the various parties;

- Deferment and payment or rejection.

  Challenge B: Parametric Insurance ("open" challenge that responds to a need in a particular area of the Sector).

  In the current context there are a set  of parameters that surround us and whose events that trigger us are also  univocally recognized by the various parties. The aim of this challenge  is to create a parametric insurance model, taking advantage of the  ability to monitor online risk based on parameters and Blockchain  recognition of triggered events.

REN - Redes Energéticas Nacionais works on the development of a more  efficient, secure and competitive energy system, which guarantees the  access of energy to all, with the lowest possible cost. REN has two main  business areas: electricity and natural gas. In Portugal, it operates  the main transport infrastructures, carries out the global management of  the National Electric System and the National Natural Gas System. In  addition, it also holds a natural gas distribution concession in the  northern coastal region of Portugal. With a strong commitment to  sustainable development, it consistently invests in the promotion of  knowledge and research and development, deepening the relationship  between academia and industry, with a view to anticipating solutions to  the major technological and environmental challenges that arise at  national and International. 

 Winning Project 

 The solution proposed by Blockbird Ventures is a solution called  "Blockbird.energy +" that allows the purchase and sale of energy,  allowing the buyer to choose how the energy was produced, for example,  solar, wind or other type of production.

Blockbird's proposal uses Ethereum ERC-721 token, which are unique,  can be sold to other users, keeps a record of transactions and is easily  auditable.

Honorable mention 

The Innov4u team presented a solution based on a marketplace so that  you can buy and sell energy. Producers communicate to the market the  willingness to trade for a certain period of time. At the same time,  buyers will have the opportunity to see the energy that can be  purchased.

The proposal allows to revolutionize the access to the market of  production and commercialization of energy with a single, universal and  decentralized energy market of registry, provider of services of added  value and with homogenization of the conditions of access.

Projects Finalists 

INESC-TEC's proposal is based on a marketplace for the purchase and  sale of energy production surpluses. Through a P2P market, a  microproducer can sell its surplus production to, say, a neighbor.

Through Ethereum, the suggested proposal 'tokenizes' the energy and  the market keeps a record of the orders of purchase and sale of energy.

SpekSciences has proposed a transactional platform between producers,  marketers and aggregators that enables P2P marketing based on  Blockchain technology.

All transactions are made through the platform suggested by SpekScience in the form of smart contracts.