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- What's New
- Function Overview
- Service Overview
- Billing
- Getting Started
-
User Guide
- Enhanced Hyperledger Fabric BCS Management
- Best Practices
-
Developer Guide
- Overview
- Chaincode Development
- Application Development
- Demos
-
Blockchain Middleware APIs
- Overview
- Chaincode Invoking (OBT)
-
Chaincode Management
- Obtaining a Token
- Installing a Chaincode
- Instantiating a Chaincode
- Listing Installed Chaincodes
- Querying Version of a Specified Chaincode
- Querying Chaincode Installation Information
- Querying Chaincode Instantiation Information
- Querying an Appchain
- Listing Blocks
- Listing Transactions
- Querying Transaction Quantity
- Listing Block Transactions
- Querying Transaction Details
- Querying Peers
- Querying diskUsage of a Node
- Querying the System-Hosted Certificate Status
- Deleting a Chaincode
- Downloading a Report
- Distributed Identity (OBT)
- Trusted Data Exchange (OBT)
- Appendix
-
API Reference
- Before You Start
- API Overview
- Examples
- Calling APIs
-
APIs (Enhanced Hyperledger Fabric)
-
BCS Management
- Creating a BCS Service
- Querying Creation Status of a BCS Service
- Querying a BCS Service
- Modifying a BCS Service
- Creating Channels
- Querying Channel Information
- Adding Peers to a Channel
- Removing Organizations from a Channel
- Downloading Certificates
- Downloading the SDK Configuration
- Generating a User Certificate
- Unfreezing a User Certificate
- Freezing a User Certificate
- Querying Quotas
- Querying Flavors
- Querying Peer Information
- Querying Asynchronous Operation Results
- Querying the BCS Service List
- Deleting a BCS Service
- Removing a Peer from a Channel
- Deleting a Channel
- BCS Consortium
- BCS Monitoring
-
BCS Management
- Permissions Policies and Supported Actions
- Appendix
- Change History
- SDK Reference
-
FAQs
-
Enhanced Hyperledger Fabric
- Billing
-
Instance Management
-
Consultation
- How Do I Determine Whether a Blockchain Is Necessary?
- What Underlying Framework Is Used for Huawei Cloud BCS?
- Can BCS Instances Deployed on the Public Cloud Access Blockchain Nodes on Other Clouds?
- What Competitive Advantages Does Huawei Cloud BCS Have?
- In Which Direction and What Capabilities Will Huawei Cloud BCS Develop?
- What Are the Specifications of VMs to Be Purchased for BCS?
- How Do I Get Access to the Partners of Huawei Cloud BCS for More Services?
- What Are the Differences Between Channel Isolation and Privacy Protection?
- How Well Does BCS Perform?
- Does BCS Support Customized Development?
- When Do I Need to Hibernate or Wake an Instance?
-
Service Usage
- Which Ports of a Security Group Are Opened When I Create a BCS Instance?
- How Do I Check Whether the ICAgent Is Installed for the Cluster?
- What Can I Do If I Can't Open the Blockchain Management Console?
- What Should I Do If My BCS Instance Remains in the Creating State?
- What Should I Do If a Peer Restarts Frequently with the Error Message "PanicDB not exist"?
- What Can I Do If the CPU Usage of a Blockchain Node Reaches 100%?
- Why Can't I Log In to the Blockchain Management Console?
- BCS.4009100: System Error
- How Can I Obtain Private Keys and Certificates for Enhanced Hyperledger Fabric Blockchains?
- Why Does Chaincode Instantiation Fail When I Deploy a Fabric v1.4 Instance Using a v1.19 CCE Cluster?
- Can All Blocks Be Saved As More and More Blocks Are Created?
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What Can I Do If I Fail to Purchase a BCS Instance?
- General Checks
-
Detailed Checks
- CCE Cluster Quota Used Up
- Failed to Create a Cluster
- Failed to Create a PVC
- Cluster Already In Use
- SFS Turbo File System Quota Exceeded
- No EIP Bound
- CCE Is Abnormal
- Cluster Status Is Abnormal
- Subnet Unavailable
- Quick Deployment in Progress
- CCE Status Check Times Out
- Insufficient Master Nodes in the AZ of the CCE Cluster
-
Abnormal Instance Statuses
- What Can I Do If a BCS Instance Is in the Abnormal State?
- What Can I Do If a BCS Instance Is in the Unknown State?
- What Can I Do If a BCS Instance Is in the EIP abnormal State?
- What Can I Do If a BCS Instance Is in the Frozen or Cluster frozen State?
- What Can I Do If the BCS Instance and the peer-xxx StatefulSet Are Abnormal After an Organization or a Peer Is Added?
- Other Issues
-
Consultation
- Chaincode Management
- Data Storage to the Blockchain
- Demos and APIs
- O&M and Monitoring
- Consortium Management
-
Enhanced Hyperledger Fabric
- Videos
-
More Documents
-
User Guide (ME-Abu Dhabi Region)
- Service Overview
- Managing Enhanced Hyperledger Fabric Instances
-
FAQs
-
BCS FAQs
-
Instance Management
-
Consultation
- How Do I Determine Whether a Blockchain Is Necessary?
- What Underlying Framework Is Used for BCS?
- What Competitive Advantages Does BCS Have?
- What Are the Specifications of VMs to Be Created for BCS?
- What Are the Differences Between Channel Isolation and Privacy Protection?
- How Well Does BCS Perform?
- When Do I Need to Hibernate or Wake an Instance?
-
Service Usage
- How Do I Check Whether the ICAgent Is Installed for the Cluster?
- What Can I Do If I Can't Open the Blockchain Management Console?
- What Should I Do If My BCS Instance Remains in the Creating State?
- What Should I Do If a Peer Restarts Frequently with the Error Message "PanicDB not exist"?
- What Can I Do If the CPU Usage of a Blockchain Node Reaches 100%?
- Why Can't I Log In to the Blockchain Management Console?
- BCS.4009100: System Error
- How Can I Obtain Private Keys and Certificates for Enhanced Hyperledger Fabric Blockchains?
- Can All Blocks Be Saved As More and More Blocks Are Created?
- Abnormal Instance Statuses
- Other Issues
-
Consultation
- Chaincode Management
- Data Storage to the Blockchain
- Demos and APIs
- O&M and Monitoring
- Consortium Management
-
Instance Management
-
BCS FAQs
- Change History
- Developer Guide (ME-Abu Dhabi Region)
-
User Guide (ME-Abu Dhabi Region)
- General Reference
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Healthcare
BCS helps healthcare institutions, third-party organizations, and supervision departments to form a collaboration consortium. Healthcare information silos are broken down using electronic medical records that cannot be tampered with to protect privacy. This builds trust between doctors and patients and provides comprehensive health and medical care information for telemedicine and referral.
Industry Status Quo and Pain Points
- Insecure data
Most healthcare data is stored in the data center. If a natural disaster or hacking occurs, patients' electronic medical records stored in the data center may be lost.
- Information silos
There is no appropriate mechanism for mutual trust and data sharing between healthcare institutions, which leads to information silos and makes it difficult to obtain complete and comprehensive data. Data may be modified casually when shared and therefore, is considered unreliable.
- Repeated medical treatment
Data is not shared between healthcare institutions. Performing repetitive health checks and creating new medical records are required when patients go to the different institutions, wasting time, money, and medical resources.
- No access to personal medical data
Patients' medical data is stored in the hospital systems, however, patients cannot access to or manage it.
Solution Architecture
A healthcare consortium blockchain is built, comprising healthcare institutions, third parties, physicians, patients, and regulators based on electronic medical records (EMRs). The medical and healthcare data is stored in the blockchain and offered for queries or scientific research, with security and privacy protected by using encryption and smart contract-based authorization mechanisms.
Solution Highlights
- Information silos broken down
The healthcare consortium blockchain connects information systems of healthcare institutions, so that regional inspection as well as ultrasound and radiological examination results can be securely exchanged for online healthcare, two-way referral, and remote consultation.
- Immutable medical data
The EMRs, physicians' diagnosis process and results, medical record query histories, and patient identity information are transparently stored in blockchains to ensure that they cannot be tampered with. This reduces medical disputes and constructs a harmonious healthcare environment.
- Protected privacy and right to know
Encryption and smart contract-based authorization mechanisms offer patients access to their own healthcare data while protecting their privacy. Others can access the data only when authorized.
- Quick and effective supervision
Regulatory authorities can use the data on blockchains to effectively prevent healthcare treatment that violates regulations, reducing medical disputes.
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