Poems of Sidney Lanier /

Mode of access: Internet.

T. A. B. : a memoir of Thomas Allnutt, second Earl Brassey /

Mode of access: Internet.

Poems of Sidney Lanier,

Mode of access: Internet.

The Unton inventories, relating to Wadley and Faringdon, co. Berks., in the years 1596 and 1620, from the originals in the possession of Earl Ferrers. With a memoir of the family of Unton,

Mode of access: Internet.

Sir Philip Sidney, servant of God,

Mode of access: Internet.

Sacharissa; some account of Dorothy Sidney, countess of Sunderland, her family and friends, 1617-1684,

Portions of the work appeared originally in Macmillan's magazine as "Sunderland and Sacharissa," "Sacharissa's letters," and "The Savile papers."

Agreed-upon procedures report on the City of Sidney, Iowa for the period July 1, 2015 through June 30, 2016

Agreed-upon procedures report on the City of Sidney, Iowa for the period July 1, 2015 through June 30, 2016

Development of a gas nanosensor node powered by solar cells

This work focuses on the development of a stand-alone gas nanosensor node, powered by solar energy to track concentration of polluted gases such as NO2, N2O, and NH3. Gas sensor networks have been widely developed over recent years, but the rise of nanotechnology is allowing the creation of a new range of gas sensors [1] with higher performance, smaller size and an inexpensive manufacturing process. This work has created a gas nanosensor node prototype to evaluate future field performance of this new generation of sensors. The sensor node has four main parts: (i) solar cells; (ii) control electronics; (iii) gas sensor and sensor board interface [2-4]; and (iv) data transmission. The station is remotely monitored through wired (ethernet cable) or wireless connection (radio transmitter) [5, 6] in order to evaluate, in real time, the performance of the solar cells and sensor node under different weather conditions. The energy source of the node is a module of polycrystalline silicon solar cells with 410cm2 of active surface. The prototype is equipped with a Resistance-To-Period circuit [2-4] to measure the wide range of resistances (KΩ to GΩ) from the sensor in a simple and accurate way. The system shows high performance on (i) managing the energy from the solar panel, (ii) powering the system load and (iii) recharging the battery. The results show that the prototype is suitable to work with any kind of resistive gas nanosensor and provide useful data for future nanosensor networks.

Effective community engagement for project success : building professionals as active participants during the construction phase of projects

Growing community concerns about the ecological, social, cultural and economic impact of housing and urban projects poses new challenges for those who have to deliver them. It is important that these concerns are addressed as part of the community engagement processes on projects. Community engagement is traditionally perceived as the purview of planners and disconnected from the building construction process. This is despite most project approval processes mandating on-going community engagement over the project’s entire lifetime. There is evidence that point to a culture of ambiguity and ambivalence among building professionals about their roles, responsibilities and expectations of community engagement during the construction phase of projects. This has contributed to a culture of distrust between communities and the construction industry. There is a clear need to build capacity among building professionals to empower them as active participants in community engagement processes which can promote better project outcomes and minimise delays and conflicts. This paper describes a process that utilises the Theory of Planned Behaviour as a framework to equip building professionals with the skills they need to engage effectively with local communities during the construction phase of projects.