CACA Agent: Capability Collaboration based AI Agent

Service computing enhances the flexibility of tools for AI agents by introducing a framework based on the "Registration-Discovery-Invocation" mechanism. This framework allows for rapid expansion and management of tool services, making it easier to integrate new tools into the system. Tool Capability acts as a registry and discovery center, handling tool registration requests and providing relevant information about available tools to Workflow Capability. By utilizing this approach, AI agents can dynamically access a variety of tools through service APIs, enabling them to interact with external environments more effectively and expand their application scenarios seamlessly.

Relying solely on Large Language Models (LLMs) for AI agent functionalities may present several drawbacks or limitations. One significant limitation is the tendency towards generating unrealistic outputs due to hallucinatory tendencies in large models. These hallucinations can lead to inaccuracies in decision-making processes and hinder the overall performance of AI agents. Additionally, large models may struggle with incorporating factual information into their reasoning processes, which can result in flawed outcomes when dealing with complex tasks that require domain-specific knowledge or expertise. Moreover, training data requirements and model complexity could pose challenges when scaling up or adapting LLM-based AI agents to new tasks or domains.

Incorporating expert feedback can significantly impact the planning abilities of AI agents by enhancing their decision-making processes and problem-solving capabilities. Expert feedback provides valuable domain-specific knowledge that LLMs alone may lack, allowing AI agents to make more informed decisions based on real-world expertise. By integrating expert insights into planning capabilities through Methodology Capability, AI agents can improve task handling accuracy, address complex scenarios more effectively, and adapt better to diverse situations requiring specialized knowledge. This collaborative approach not only enriches an agent's planning strategies but also fosters continuous learning and improvement through interaction with human experts.