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S. Rodgers, P. Peiris, K. Kailasapathy, J. Cox (2003)
Inhibition of Non-proteolytic Clostridium botulinum with Lactic Acid Bacteria in Extended Shelf-Life Cook-Chill SoupsFood Biotechnology, 17
M. Dekker, R. Verkerk (2003)
Dealing with variability in food production chains: a tool to enhance the sensitivity of epidemiological studies on phytochemicalsEuropean Journal of Nutrition, 42
S. Kimes, Deborah Barrash, J. Alexander (1999)
Developing a Restaurant Revenue-management StrategyCornell Hotel and Restaurant Administration Quarterly, 40
R. Carols
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J. Alexander (1999)
SAFSR CUSTOMER SERVICE 2010: TECHNOLOGY OF THE FUTUREFoodservice Research International, 11
K. Alley
Courtyard café proves size doesn't matter
P. Verboven, N. Scheerlinck, J. Baerdemaeker, B. Nicolai (1999)
Equipment considerations for sous vide food heating and cooling
M. Jakobsen, G. Bertelsen, J. Kerry, D. Ledward (2002)
6 – Modelling colour stability in meat
P. Klosse, J. Riga, A. Cramwinckel, W. Saris (2004)
The formulation and evaluation of culinary success factors (CSFs) that determine the palatability of foodClinical Nutrition
H. This (2006)
Molecular Gastronomy: Exploring the Science of Flavor
S. Rodgers (2004)
Value adding with functional mealsFood Service Technology, 4
M. Simon, Susan Houghton, Sonia Savelli (2003)
Out of the frying panJournal of Business Venturing, 18
N. Bengtsson (1995)
HEAT PROCESSING EQUIPMENT FOR FOODSERVICE USE ‐ EUROPEAN DEVELOPMENTS FOLLOWING THE SWEDISH CATERING 1990 PROGRAMFoodservice Research International, 8
C. Brossard, L. Lethuaut, A. Boelrijk, F. Mariette, C. Genot (2006)
Sweetness and aroma perceptions in model dairy desserts: an overviewFlavour and Fragrance Journal, 21
H. Pinheiro-Sant’Ana, M. Penteado, S. Brandão, P. Stringheta (1999)
Stability of B-vitamin in meats prepared by foodservice. 1. ThiaminFoodservice Research International
N. Light, A. Walker (1990)
Cook-Chill Catering: Technology and Management
J. Cha
Driving ambition
N. Marmiroli, C. Peano, E. Maestri, M. Lees (2003)
1 – Advanced PCR techniques in identifying food components
S. Notermans, J. Zandvoort-Roelofsen, A. Barendsz, J. Beczner (2004)
Risk profile for strawberriesFood protection trends, 24
Bradford Hudson (1994)
Innovation through acquisitionCornell Hotel and Restaurant Administration Quarterly, 35
J. Alexander
Customer service 2010: technology of the future
S. Rodgers (2005)
Applied research and educational needs in food service managementInternational Journal of Contemporary Hospitality Management, 17
C. Agrimonti, G. Visioli, N. Marmiroli (2000)
In vitro and in silico analysis of two genes (A2-1 and G1-1) differentially regulated during dormancy and sprouting in potato tubersPotato Research, 43
A. Thybo, H. Martens, O. Lyshede (2006)
Texture and Microstructure of Steam Cooked, Vacuum Packed PotatoesJournal of Food Science, 63
A. Brillet, M. Pilet, H. Prévost, M. Cardinal, F. Leroi (2005)
Effect of inoculation of Carnobacterium divergens V41, a bio-preservative strain against Listeria monocytogenes risk, on the microbiological, chemical and sensory quality of cold-smoked salmon.International journal of food microbiology, 104 3
H. Pinheiro-Sant’Ana, M. Penteado, P. Stringheta, J. Chaves (1999)
STABILITY OF B‐VITAMINS IN MEATS PREPARED BY FOODSERVICE. 3. NICOTINIC ACIDFoodservice Research International, 11
L. Campbell
Canada: do it yourself dining
H. Pinheiro-Sant’Ana, P. Stringheta, M. Penteado, S. Brandão (1999)
Stability of B-vitamins in meats prepared by foodservice. 2.RiboflavinFoodservice Research International, 11
M. Lindström, K. Kiviniemi, H. Korkeala (2006)
Hazard and control of group II (non-proteolytic) Clostridium botulinum in modern food processing.International journal of food microbiology, 108 1
K. Yashoda, V. Modi, N. Mahendrakar, N. Sachindra, D. Rao (2004)
QUALITY CHARACTERISTICS OF FRIED BROILER CHICKEN PREPARED BY TWO PROCESSING METHODSFoodservice Research International, 14
A. Cardello, H. Schutz, C. Snow, L. Lesher (2000)
Predictors of food acceptance, consumption and satisfaction in specific eating situationsFood Quality and Preference, 11
T. Coultate (2009)
Food: The Chemistry of its Components
S. Rybka-Rodgers (2001)
Improvement of food safety design of cook-chill foodsFood Research International, 34
J. Cha
Kitchen simple
N. King, R. Whyte (2006)
Does It Look Cooked? A Review of Factors That Influence Cooked Meat ColorJournal of Food Science, 71
S. Martins, W. Jongen, M. Boekel (2000)
A review of Maillard reaction in food and implications to kinetic modellingTrends in Food Science and Technology, 11
Michael Davis (1991)
Fundamentals of Operations Management
Dw Miles, T. Ross (1999)
Identifying and quantifying risks in the food production chainFood Australia, 51
Anglican Retirement Villages Diocese of Sydney
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Purpose – The purpose of this paper is to identify technological challenges and innovative solutions in each of the food production philosophies in the food service sector, namely: industrial cuisine, fast food and fresh food. Design/methodology/approach – The paper reviews industry reports on cooking equipment and preparation techniques. Conceptual links are made with possible future developments as well as operational/strategic advantages they represent. Findings – Innovation in food preparation commands multi‐disciplinary approaches stemming from engineering and food science. Industrial cuisine would benefit from automation, units with intensive heating, robust food product design and shelf‐life extension; fast food from reduced oil absorption by food, better cooking oils, automation and short frying time; and fresh food from rapid cooking, visually appealing serving units and analytical instrumentation for testing raw produce. Future innovations may originate in the field of robotics, food engineering and laboratory equipment design including miniaturisation and portability of units. Sophistication in product development can be achieved through application of the principles of molecular gastronomy in combination with computer modelling. Practical implications – Managers can conceptualise their operations in terms of the philosophies presented in the paper. Technological innovation is critical to sustain competitiveness (cost leadership and differentiation). The list of underpinning disciplines in food production can be used by educators wishing to enhance their programs with fundamentals supporting innovation. Originality/value – Food preparation philosophies are presented in the light of impacts on food sensory and microbiological quality, nutritional value and operational efficiencies. The possibilities for future innovation stemming from developments in other technologically advanced fields are identified.
International Journal of Contemporary Hospitality Management – Emerald Publishing
Published: Feb 8, 2008
Keywords: Food manufacturing processes; Innovation; Fast foods; Fresh foods; Modelling
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