The earliest Buddhist shrine: excavating the birthplace of the Buddha, Lumbini (Nepal)

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Abstract

Key locations identified with the lives of important religious founders have often been extensively remodelled in later periods, entraining the destruction of many of the earlier remains. Recent UNESCO-sponsored work at the major Buddhist centre of Lumbini in Nepal has sought to overcome these limitations, providing direct archaeological evidence of the nature of an early Buddhist shrine and a secure chronology. The excavations revealed a sequence of early structures preceding the major rebuilding by Asoka during the third century BC. The sequence of durable brick architecture supplanting non-durable timber was foreseen by British prehistorian Stuart Piggott when he was stationed in India over 70 years ago. Lumbini provides a rare and valuable insight into the structure and character of the earliest Buddhist shrines.

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Radiocarbon Calibration and Analysis of Stratigraphy: The OxCal Program

Christopher Bronk Ramsey (1995)

People usually study the chronologies of archaeological sites and geological sequences using many different kinds of evidence, taking into account calibrated radiocarbon dates, other dating methods and stratigraphic information. Many individual case studies demonstrate the value of using statistical methods to combine these different types of information. I have developed a computer program, OxCal, running under Windows 3.1 (for IBM PCs), that will perform both 14C calibration and calculate what extra information can be gained from stratigraphic evidence. The program can perform automatic wiggle matches and calculate probability distributions for samples in sequences and phases. The program is written in C++ and uses Bayesian statistics and Gibbs sampling for the calculations. The program is very easy to use, both for simple calibration and complex site analysis, and will produce graphical output from virtually any printer.

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Development of the Radiocarbon Calibration Program

Christopher Bronk Ramsey (2001)

This paper highlights some of the main developments to the radiocarbon calibration program, OxCal. In addition to many cosmetic changes, the latest version of OxCal uses some different algorithms for the treatment of multiple phases. The theoretical framework behind these is discussed and some model calculations demonstrated. Significant changes have also been made to the sampling algorithms used which improve the convergence of the Bayesian analysis. The convergence itself is also reported in a more comprehensive way so that problems can be traced to specific parts of the model. The use of convergence data, and other techniques for testing the implications of particular models, are described.