Developing population dynamic models that can flexibly adapt to different species remains a challenge due to the context-dependent nature of demographic studies. This work introduces ABC_GP IPM, a novel Integral Projection Model (IPM) framework, aimed at mitigating key limitations associated with traditional IPMs, including (i) reliance on predefined vital rate models with restrictive assumptions, (ii) omission of potential vital rate interactions, and (iii) limited flexibility in incorporating domain- or user-specific knowledge. The purpose of this work is to enhance the adaptability and accuracy of IPMs across various ecological and evolutionary studies. Our methodology integrates Gaussian Process (GP) models with Approximate Bayesian Computation (ABC). GP models introduce a non-parametric structure that accommodates a broader range of demographic patterns, reducing sensitivity to specific model choices. The incorporation of ABC methods allows IPMs to integrate additional population-level information, enabling potential interactions among vital rates to be reflected in model outcomes without requiring additional datasets. The information can be user-modified, facilitating the tailoring of IPMs to specific requirements or domain-specific knowledge. Recognising the inherent challenge of selecting appropriate summary statistics in ABC applications, we further propose a systematic procedure tailored to navigate this complexity effectively when applying ABC_GP to IPMs. The method demonstrated strong flexibility and adaptability across different modeling scenarios. In simulation studies, ABC_GP IPM showed notable improvements over traditional GLM-based IPMs across multiple population metrics commonly used in biological research. When applied to real-world datasets, the method captured complex demographic patterns more effectively, supporting its potential as a practical and adaptable alternative to existing IPM frameworks. The ABC_GP IPM framework provides greater flexibility in model specification, accommodating potential non-linearities with fewer assumptions. It also facilitates the incorporation of user expertise and domain-specific knowledge, enhancing its applicability to context-dependent demographic studies. While offering a more adaptable modeling approach, the method remains accessible to users without specialized expertise in statistical modeling. Importantly, ABC_GP IPM delivers these improved outcomes using identical datasets as standard IPMs, facilitating easier adoption for studies that have applied traditional IPMs.