The white paper examines the benefits of web-to-print technology for marketing automation services and provides valuable insights on creating user-friendly and error-proof workflows.
Customer’s Canvas by Aurigma, a leading provider of web-to-print solutions, has released a new white paper on Web-to-Print for Marketing Automation. The paper examines the benefits of web-to-print technology for marketing automation services, the importance of templates, working with data, and user-friendly and error-proof ordering workflows.
"Web-to-print technology has the power to transform marketing automation services by making print ordering more efficient and error-free," said Dmitry Sevostyanov, CEO of Customer’s Canvas. "This white paper is designed to provide printing business professionals with valuable insights into the benefits of web-to-print technology and how it can be used to improve their marketing efforts."
The white paper includes case studies to illustrate the main points and is written for printing business professionals who are interested in learning how web-to-print technology can help them automate their marketing processes and improve their ROI.
“We believe this white paper will be valuable for anyone looking to improve their marketing automation efforts," said Dmitry. "Whether you are new to web-to-print technology or have been using it for years, this white paper will provide you with valuable insights and actionable strategies that you can use to improve your marketing automation efforts.”
The white paper is available for download on the Customer’s Canvas website. To download the white paper, visit the link.
Customer’s Canvas by Aurigma is a platform of tools and solutions for image composition, design personalization, and prepress automation for print service providers and marketing companies. Customer’s Canvas is designed to streamline the creation of personalized designs online. This solution integrates into any existing or new website, allowing companies to build ordering workflows for print and packaging products of virtually any complexity.