GOeureka is a travel tech
company utilising blockchain technology to build a hotel booking platform. Our
mission is to decentralise the hotel booking sector and deliver greater
transparency by allowing hotels to directly connect with their customers. As a
technology partner to hotels, GO aims to provide a dynamic digital experience
to users and eradicate the high commission structures imposed by online travel
agents. By reducing the financial commitments of hotels to third-party booking
platforms, GO’s vision is to enable hotels to focus more resources on providing
better intrinsic value and services to travellers around the globe.
Platform
Overview
GOeureka aims to develop
an easy to use, reliable Facility and Services booking system with persistent
indisputable records. As with all new systems, much of what is proposed will
evolve over time as requirements change. The web platform will be developed
with a backend built on the Python Django framework while individual components
will be built using a mix of programming languages (HTML, CSS, Javascript,
Golang, etc.) and the mobile application built on the Ionic framework. The
database will be a PostgreSQL database that runs on a cloud server (Amazon Web
Service) with certain data validated and stored on the Ethereum blockchain.
Smart contracts will be ERC20 compliant (though newer standards may be applied
after the time of writing) and customized using Solidity.
ERC20 smart contracts
will be utilized for the security and immutability of data throughout the
platform. To increase performance and keep transaction fees to a minimum,
individual transactions and bookings will be kept outside of the blockchain.
The settlement of all transactions will occur off-chain and fulfilled
transactions will be aggregated each day and sent through the smart contract to
be validated and stored on the blockchain.
It is a key goal that the
GOeureka platform provides for widespread usage, therefore utmost priority will
be given to platform performance, user interface and experience. Majority of
the system will be built in off-chain components but critical information will
be stored in persistent smart contracts. The critical factors addressed
are:
● The design of a secure
mobile wallet that the average user feels comfortable using and is recoverable
by the same user in the event of a lost device.
● The GO token which can
be held, spent or traded.
● The GO credits which
offers preferential rates when purchasing products and services. An exchange allowing the purchase of GO
credits in exchange for GO tokens
● A management system to
allow booking and recording of scarce, non-fungible resources (e.g.
room-nights). Making this booking comes from:
○ payment of deposit in
GO credits (automatic)
○ acknowledgement by the
payment facilities during deposit through classic methods
● A booking and payment
system for less scarce resources - e.g. spa sessions, meals, activities
etc.
Hotel
Services
Upon check-in,
authentication tokens will be sent to GOeureka’s hotel CMS and guests will be
matchmade with the hotel they have checked into once tokens are authenticated
in the backend. Hotels and guests will have direct access to each other and
will be able to communicate for the duration of the stay. Guests will be entitled to the
aforementioned hotel services, depending on what hotels make available.
Room
Key
To provide full
self-service capabilities, GOeureka will also provide a room key feature on the
mobile app. The availability of the mobile room key depends on the hotel’s
physical infrastructure, but hotels with smart locks or keypad locks will have
the room key feature integrated on GOeureka’s app.
GOeureka will integrate
available developer APIs by major smart lock providers. This technology makes
use of encrypted Bluetooth technology, where authenticated data is sent from
the GOeureka app through the guest’s mobile device to the smart lock network
which then unlocks a guest’s room. Bluetooth technology is found to be a safer
alternative due to encryption and authentication methods available for
Bluetooth transmission as opposed to Wi-Fi protocols that are easily spied on
by other users on the same Wi-Fi network.
Author
Address
: 0xaD5CB25325C83057879e3E5dCa5dcF33A0d08D19
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