π Digital Signature Summary
A digital signature is a secure electronic method used to verify the authenticity of a digital message or document. It proves that the sender is who they claim to be and that the content has not been altered since it was signed. Digital signatures rely on mathematical techniques and encryption to create a unique code linked to the signer and the document.
ππ»ββοΈ Explain Digital Signature Simply
Imagine writing your name at the bottom of a letter so the recipient knows it really came from you. A digital signature is like this, but for electronic documents, using secret codes that only the sender can create. This means anyone can check if the message is real and unchanged, even if they do not know the sender personally.
π How Can it be used?
Digital signatures can be used to securely approve contracts online without needing physical paperwork.
πΊοΈ Real World Examples
When someone signs a contract using an electronic signature service like DocuSign or Adobe Sign, a digital signature is created to ensure that only the intended person signed the document and that no changes were made after signing.
Government tax agencies often let people submit tax forms online by using digital signatures, making the process faster and more secure than sending paper forms by post.
β FAQ
π Categories
π External Reference Links
π Was This Helpful?
If this page helped you, please consider giving us a linkback or share on social media!
π https://www.efficiencyai.co.uk/knowledge_card/digital-signature
Ready to Transform, and Optimise?
At EfficiencyAI, we donβt just understand technology β we understand how it impacts real business operations. Our consultants have delivered global transformation programmes, run strategic workshops, and helped organisations improve processes, automate workflows, and drive measurable results.
Whether you're exploring AI, automation, or data strategy, we bring the experience to guide you from challenge to solution.
Letβs talk about whatβs next for your organisation.
π‘Other Useful Knowledge Cards
Stateless Clients
Stateless clients are systems or applications that do not keep track of previous interactions or sessions with a server. Each request made by a stateless client contains all the information needed for the server to understand and process it, without relying on stored context from earlier exchanges. This approach allows for simpler, more scalable systems, as the server does not need to remember anything about the client between requests.
Transformation Assurance Reviews
Transformation Assurance Reviews are formal checks carried out during major organisational change projects to confirm that plans, progress, and outcomes are on track. These reviews help to identify risks, issues, or gaps early so they can be addressed before they become bigger problems. They are usually conducted by independent experts or teams to provide an unbiased view on whether the transformation is likely to succeed.
AI-Based Data Insights
AI-based data insights use artificial intelligence to analyse large amounts of information and find patterns or trends that might not be obvious to humans. These systems process data much faster than people and can handle complex or varied data sources. The insights produced help organisations make better decisions by highlighting useful information or predicting future outcomes.
Workflow Optimization Tools
Workflow optimisation tools are software applications or platforms designed to help individuals and teams organise, automate, and improve their daily work processes. These tools streamline tasks, reduce repetitive work, and make it easier to track progress and deadlines. By using workflow optimisation tools, businesses can increase productivity and ensure that important steps are not missed in any project.
Distributed RL Algorithms
Distributed reinforcement learning (RL) algorithms are methods where multiple computers or processors work together to train an RL agent more efficiently. Instead of a single machine running all the computations, tasks like collecting data, updating the model, and evaluating performance are divided among several machines. This approach can handle larger problems, speed up training, and improve results by using more computational power.