Attempts to distinguish a science of life at the turn of the nineteenth century faced a number of challenges. A central difficulty was clearly demarcating the living from the nonliving experimentally and conceptually. The more closely the boundaries between organic and inorganic phenomena were examined, the more they expanded and thwarted any clear delineation. Experimenting at the Boundaries of Life traces the debates surrounding the first articulations of a science of life in a variety of texts and practices centered on German contexts. Joan Steigerwald examines the experiments on the processes of organic vitality, such as excitability and generation, undertaken across the fields of natural history, physiology, physics and chemistry. She highlights the sophisticated reflections on the problem of experimenting on living beings by investigators, and relates these epistemic concerns directly to the philosophies of nature of Kant and Schelling. Her book skillfully ties these epistemic reflections to arguments by the Romantic writers Novalis and Goethe for the aesthetic aspects of inquiries into the living world and the figurative languages in which understandings of nature were expressed.
Focusing on the late eighteenth and early nineteenth centuries, this volume highlights the scientific and philosophical inquiry into heredity and reproduction and the consequences of these developing ideas on understandings of race and gender. Neither the life sciences nor philosophy had fixed disciplinary boundaries at this point in history. Kant, Hegel, and Schelling weighed in on these questions alongside scientists such as Caspar Friedrich Wolff, Johann Friedrich Blumenbach, and Karl Ernst von Baer. The essays in this volume chart the development of modern gender polarizations and a naturalized, scientific understanding of gender and race that absorbed and legitimized cultural assumptions about difference and hierarchy.
Attempts to distinguish a science of life at the turn of the nineteenth century faced a number of challenges. A central difficulty was clearly demarcating the living from the nonliving experimentally and conceptually. The more closely the boundaries between organic and inorganic phenomena were examined, the more they expanded and thwarted any clear delineation. Experimenting at the Boundaries of Life traces the debates surrounding the first articulations of a science of life in a variety of texts and practices centered on German contexts. Joan Steigerwald examines the experiments on the processes of organic vitality, such as excitability and generation, undertaken across the fields of natural history, physiology, physics and chemistry. She highlights the sophisticated reflections on the problem of experimenting on living beings by investigators, and relates these epistemic concerns directly to the philosophies of nature of Kant and Schelling. Her book skillfully ties these epistemic reflections to arguments by the Romantic writers Novalis and Goethe for the aesthetic aspects of inquiries into the living world and the figurative languages in which understandings of nature were expressed.
The construction of the Panama Canal is typically viewed as a marvel of American ingenuity. What is less visible, and less understood, is the project’s dependence on the labor of Black migrant women. The Silver Women shifts the focus of this monumental endeavor to the West Indian women who travelled to Panama, inviting readers to place women’s intimate lives, choices, grief, and ambition at the center of the economic and geopolitical transformation created by the construction of the Panama Canal and U.S. imperial expansion. Joan Flores-Villalobos argues that Black West Indian women made the canal construction possible by providing the indispensable everyday labor of social reproduction. West Indian women built a provisioning economy that fed, housed, and cared for the segregated Black West Indian labor force, in effect subsidizing the construction effort and the racial calculus that separated pay in silver for Black workers and gold for white Americans. But while also subject to racial discrimination and segregation, West Indian women mostly worked outside the umbrella of U.S. canal authorities. They did not hold contracts, had little access to official services and wages, and received pay in both silver and gold. From this position, they found ways to skirt, and at times subvert, the legal, moral, and economic parameters imperial authorities sought to impose on the migrant workforce. West Indian women developed important strategies of claims-making, kinship, community building, and market adaptation that helped them navigate the contradictions and violence of U.S. empire. In the meantime, these strategies of social reproduction nurtured further West Indian migrations, linking Panama to places like Harlem and Santiago de Cuba. The Silver Women is thus a history of Black women’s labor of social reproduction as integral to U.S. imperial infrastructure, the global Caribbean diaspora, and women’s own survival.
We present in this volume the collection of finally accepted papers of the eighth edition of the “IWANN” conference (“International Work-Conference on Artificial Neural Networks”). This biennial meeting focuses on the foundations, theory, models and applications of systems inspired by nature (neural networks, fuzzy logic and evolutionary systems). Since the first edition of IWANN in Granada (LNCS 540, 1991), the Artificial Neural Network (ANN) community, and the domain itself, have matured and evolved. Under the ANN banner we find a very heterogeneous scenario with a main interest and objective: to better understand nature and beings for the correct elaboration of theories, models and new algorithms. For scientists, engineers and professionals working in the area, this is a very good way to get solid and competitive applications. We are facing a real revolution with the emergence of embedded intelligence in many artificial systems (systems covering diverse fields: industry, domotics, leisure, healthcare, ... ). So we are convinced that an enormous amount of work must be, and should be, still done. Many pieces of the puzzle must be built and placed into their proper positions, offering us new and solid theories and models (necessary tools) for the application and praxis of these current paradigms. The above-mentioned concepts were the main reason for the subtitle of the IWANN 2005 edition: “Computational Intelligence and Bioinspired Systems.” The call for papers was launched several months ago, addressing the following topics: 1. Mathematical and theoretical methods in computational intelligence.
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