Master of Science

thesisArguably, the inherent complexity of network management makes it the top concern for network operators. While true for all networks, network management complexity is significantly exacerbated in open access networks where, unlike more monolithic "closed access networks," services are provided by different service providers on a shared network infrastructure that is operated by a separate network owner/operator. The intricate responsibilities of the role players in this environment, combined with the lack of automation in current network management and operation practices, conspire to prevent open access networks from reaching their true potential. In this thesis, we present our work on the FlowOps framework to address these concerns. FlowOps is a network management and operations framework that provides structured, automated network management for heterogeneous open access network environments. In FlowOps, we are exploring the use of a production rules system to realize automated network management and operations. This rule-based approach enables us to accurately model dependencies and relationships of devices and role players in an open access network. FlowOps enables the automation of network configuration and fault management tasks in both traditional and software-defined networks. We present a prototype implementation of FlowOps and demonstrate its utility for network operators, service providers, and end users

What insights can baboon feeding ecology provide for early hominin niche differentiation?

Several authors have proposed that papionin baboons provide appropriate analogs for early hominin niche differentiation. Savanna-dwelling baboons and australopiths both radiated around the same time after Neogene expansion of C4 grasslands, likely experiencing similar environmental changes and faced with solving similar ecological problems. We explore the insights baboons may provide into dietary ecology of savanna-occupying hominins. We compare dietary information from stable isotope data for feces, hair, and tooth dentine collagen of modern chacma baboons (Papio ursinus) with dietary data for Plio-Pleistocene papionins and hominins from South African savannas. Results confirm that, like the australopiths, baboons consume substantial amounts of C4 food sources. However, the magnitude of inter- and intraindividual variation in baboon diets across different seasons and habitats is less than that from specimens of Australopithecus africanus and Paranthropus robustus analyzed to date. Hominins also consumed greater amounts of C4 resources. Thus, though the data demonstrate that the radiation of both primate groups was closely linked with the spread of C4 grasslands, hominins were even more extreme ecological generalists than baboons were. The absence of a fixed-diet in papionins implies that it was unlikely that the more ecologically flexible hominins evolved specializations for any one food type, an interpretation consistent with recent carbon isotope, dental microwear, and ecomorphological studies. We propose that researchers place less emphasis on resolving the foods that were most important for hominin differentiation; instead, future research should focus on questions related to ecological generalism

Contributions of Biogeochemistry to Understanding Hominin Dietary Ecology.

NoDietary ecology is one key to understanding the biology, lifeways, and evolutionary pathways of many animals. Determining the diets of long-extinct hominins, however, is a considerable challenge. Although archaeological evidence forms a pillar of our understand-ing of diet and subsistence in the more recent past, for early hominins, the most direct evidence is to be found inthe fossils themselves. Here we review the suite of emerging biochemical paleodietary tools based on stable isotopeand trace element archives within fossil calcified tissues.We critically assess their contribution to advancing our understanding of australopith, early Homo, and Neander-thal diets within the broader context of non-biogeochemical techniques for dietary reconstruction, such as mor-phology and dental microwear analysis. The most signifi-cant outcomes to date are the demonstration of hightrophic-level diets among Neanderthals and Late Pleistocene modern humans in Glacial Europe, and the persis-tent inclusion of C4 grass-related foods in the diets of Plio¿Pleistocene hominins in South Africa. Such studies clearly show the promise of biogeochemical techniques for testing hypotheses about the diets of early hominins.Nevertheless, we argue that more contextual data from modern ecosystem and experimental studies are needed if we are to fully realize their potential